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How to write a research plan: Step-by-step guide

Last updated

30 January 2024

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Today’s businesses and institutions rely on data and analytics to inform their product and service decisions. These metrics influence how organizations stay competitive and inspire innovation. However, gathering data and insights requires carefully constructed research, and every research project needs a roadmap. This is where a research plan comes into play.

Read this step-by-step guide for writing a detailed research plan that can apply to any project, whether it’s scientific, educational, or business-related.

• What is a research plan?

A research plan is a documented overview of a project in its entirety, from end to end. It details the research efforts, participants, and methods needed, along with any anticipated results. It also outlines the project’s goals and mission, creating layers of steps to achieve those goals within a specified timeline.

Without a research plan, you and your team are flying blind, potentially wasting time and resources to pursue research without structured guidance.

The principal investigator, or PI, is responsible for facilitating the research oversight. They will create the research plan and inform team members and stakeholders of every detail relating to the project. The PI will also use the research plan to inform decision-making throughout the project.

• Why do you need a research plan?

Create a research plan before starting any official research to maximize every effort in pursuing and collecting the research data. Crucially, the plan will model the activities needed at each phase of the research project .

Like any roadmap, a research plan serves as a valuable tool providing direction for those involved in the project—both internally and externally. It will keep you and your immediate team organized and task-focused while also providing necessary definitions and timelines so you can execute your project initiatives with full understanding and transparency.

External stakeholders appreciate a working research plan because it’s a great communication tool, documenting progress and changing dynamics as they arise. Any participants of your planned research sessions will be informed about the purpose of your study, while the exercises will be based on the key messaging outlined in the official plan.

Here are some of the benefits of creating a research plan document for every project:

Project organization and structure

Well-informed participants

All stakeholders and teams align in support of the project

Clearly defined project definitions and purposes

Distractions are eliminated, prioritizing task focus

Timely management of individual task schedules and roles

Costly reworks are avoided

• What should a research plan include?

The different aspects of your research plan will depend on the nature of the project. However, most official research plan documents will include the core elements below. Each aims to define the problem statement , devising an official plan for seeking a solution.

Specific project goals and individual objectives

Ideal strategies or methods for reaching those goals

Required resources

Descriptions of the target audience, sample sizes , demographics, and scopes

Key performance indicators (KPIs)

Project background

Research and testing support

Preliminary studies and progress reporting mechanisms

Cost estimates and change order processes

Depending on the research project’s size and scope, your research plan could be brief—perhaps only a few pages of documented plans. Alternatively, it could be a fully comprehensive report. Either way, it’s an essential first step in dictating your project’s facilitation in the most efficient and effective way.

• How to write a research plan for your project

When you start writing your research plan, aim to be detailed about each step, requirement, and idea. The more time you spend curating your research plan, the more precise your research execution efforts will be.

Account for every potential scenario, and be sure to address each and every aspect of the research.

Consider following this flow to develop a great research plan for your project:

Define your project’s purpose

Start by defining your project’s purpose. Identify what your project aims to accomplish and what you are researching. Remember to use clear language.

Thinking about the project’s purpose will help you set realistic goals and inform how you divide tasks and assign responsibilities. These individual tasks will be your stepping stones to reach your overarching goal.

Additionally, you’ll want to identify the specific problem, the usability metrics needed, and the intended solutions.

Know the following three things about your project’s purpose before you outline anything else:

What you’re doing

Why you’re doing it

What you expect from it

Identify individual objectives

With your overarching project objectives in place, you can identify any individual goals or steps needed to reach those objectives. Break them down into phases or steps. You can work backward from the project goal and identify every process required to facilitate it.

Be mindful to identify each unique task so that you can assign responsibilities to various team members. At this point in your research plan development, you’ll also want to assign priority to those smaller, more manageable steps and phases that require more immediate or dedicated attention.

Select research methods

Once you have outlined your goals, objectives, steps, and tasks, it’s time to drill down on selecting research methods . You’ll want to leverage specific research strategies and processes. When you know what methods will help you reach your goals, you and your teams will have direction to perform and execute your assigned tasks.

Research methods might include any of the following:

User interviews : this is a qualitative research method where researchers engage with participants in one-on-one or group conversations. The aim is to gather insights into their experiences, preferences, and opinions to uncover patterns, trends, and data.

Field studies : this approach allows for a contextual understanding of behaviors, interactions, and processes in real-world settings. It involves the researcher immersing themselves in the field, conducting observations, interviews, or experiments to gather in-depth insights.

Card sorting : participants categorize information by sorting content cards into groups based on their perceived similarities. You might use this process to gain insights into participants’ mental models and preferences when navigating or organizing information on websites, apps, or other systems.

Focus groups : use organized discussions among select groups of participants to provide relevant views and experiences about a particular topic.

Diary studies : ask participants to record their experiences, thoughts, and activities in a diary over a specified period. This method provides a deeper understanding of user experiences, uncovers patterns, and identifies areas for improvement.

Five-second testing: participants are shown a design, such as a web page or interface, for just five seconds. They then answer questions about their initial impressions and recall, allowing you to evaluate the design’s effectiveness.

Surveys : get feedback from participant groups with structured surveys. You can use online forms, telephone interviews, or paper questionnaires to reveal trends, patterns, and correlations.

Tree testing : tree testing involves researching web assets through the lens of findability and navigability. Participants are given a textual representation of the site’s hierarchy (the “tree”) and asked to locate specific information or complete tasks by selecting paths.

Usability testing : ask participants to interact with a product, website, or application to evaluate its ease of use. This method enables you to uncover areas for improvement in digital key feature functionality by observing participants using the product.

Live website testing: research and collect analytics that outlines the design, usability, and performance efficiencies of a website in real time.

There are no limits to the number of research methods you could use within your project. Just make sure your research methods help you determine the following:

What do you plan to do with the research findings?

What decisions will this research inform? How can your stakeholders leverage the research data and results?

Recruit participants and allocate tasks

Next, identify the participants needed to complete the research and the resources required to complete the tasks. Different people will be proficient at different tasks, and having a task allocation plan will allow everything to run smoothly.

Prepare a thorough project summary

Every well-designed research plan will feature a project summary. This official summary will guide your research alongside its communications or messaging. You’ll use the summary while recruiting participants and during stakeholder meetings. It can also be useful when conducting field studies.

Ensure this summary includes all the elements of your research project . Separate the steps into an easily explainable piece of text that includes the following:

An introduction: the message you’ll deliver to participants about the interview, pre-planned questioning, and testing tasks.

Interview questions: prepare questions you intend to ask participants as part of your research study, guiding the sessions from start to finish.

An exit message: draft messaging your teams will use to conclude testing or survey sessions. These should include the next steps and express gratitude for the participant’s time.

Create a realistic timeline

While your project might already have a deadline or a results timeline in place, you’ll need to consider the time needed to execute it effectively.

Realistically outline the time needed to properly execute each supporting phase of research and implementation. And, as you evaluate the necessary schedules, be sure to include additional time for achieving each milestone in case any changes or unexpected delays arise.

For this part of your research plan, you might find it helpful to create visuals to ensure your research team and stakeholders fully understand the information.

Determine how to present your results

A research plan must also describe how you intend to present your results. Depending on the nature of your project and its goals, you might dedicate one team member (the PI) or assume responsibility for communicating the findings yourself.

In this part of the research plan, you’ll articulate how you’ll share the results. Detail any materials you’ll use, such as:

Presentations and slides

A project report booklet

A project findings pamphlet

Documents with key takeaways and statistics

Graphic visuals to support your findings

• Format your research plan

As you create your research plan, you can enjoy a little creative freedom. A plan can assume many forms, so format it how you see fit. Determine the best layout based on your specific project, intended communications, and the preferences of your teams and stakeholders.

Find format inspiration among the following layouts:

Written outlines

Narrative storytelling

Visual mapping

Graphic timelines

Remember, the research plan format you choose will be subject to change and adaptation as your research and findings unfold. However, your final format should ideally outline questions, problems, opportunities, and expectations.

• Research plan example

Imagine you’ve been tasked with finding out how to get more customers to order takeout from an online food delivery platform. The goal is to improve satisfaction and retain existing customers. You set out to discover why more people aren’t ordering and what it is they do want to order or experience. 

You identify the need for a research project that helps you understand what drives customer loyalty . But before you jump in and start calling past customers, you need to develop a research plan—the roadmap that provides focus, clarity, and realistic details to the project.

Here’s an example outline of a research plan you might put together:

Project title

Project members involved in the research plan

Purpose of the project (provide a summary of the research plan’s intent)

Objective 1 (provide a short description for each objective)

Objective 2

Objective 3

Proposed timeline

Audience (detail the group you want to research, such as customers or non-customers)

Budget (how much you think it might cost to do the research)

Risk factors/contingencies (any potential risk factors that may impact the project’s success)

Remember, your research plan doesn’t have to reinvent the wheel—it just needs to fit your project’s unique needs and aims.

Customizing a research plan template

Some companies offer research plan templates to help get you started. However, it may make more sense to develop your own customized plan template. Be sure to include the core elements of a great research plan with your template layout, including the following:

Introductions to participants and stakeholders

Background problems and needs statement

Significance, ethics, and purpose

Research methods, questions, and designs

Preliminary beliefs and expectations

Implications and intended outcomes

Realistic timelines for each phase

Conclusion and presentations

How many pages should a research plan be?

Generally, a research plan can vary in length between 500 to 1,500 words. This is roughly three pages of content. More substantial projects will be 2,000 to 3,500 words, taking up four to seven pages of planning documents.

What is the difference between a research plan and a research proposal?

A research plan is a roadmap to success for research teams. A research proposal, on the other hand, is a dissertation aimed at convincing or earning the support of others. Both are relevant in creating a guide to follow to complete a project goal.

What are the seven steps to developing a research plan?

While each research project is different, it’s best to follow these seven general steps to create your research plan:

Defining the problem

Identifying goals

Choosing research methods

Recruiting participants

Preparing the brief or summary

Establishing task timelines

Defining how you will present the findings

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• A Research Guide
• Research Paper Guide

How to Write a Research Plan

• Research plan definition
• Purpose of a research plan
• Research plan structure
• Step-by-step writing guide

Tips for creating a research plan

• Research plan examples

Research plan: definition and significance

What is the purpose of a research plan.

• Bridging gaps in the existing knowledge related to their subject.
• Reinforcing established research about their subject.
• Introducing insights that contribute to subject understanding.

Research plan structure & template

Introduction.

• What is the existing knowledge about the subject?
• What gaps remain unanswered?
• How will your research enrich understanding, practice, and policy?

Literature review

Expected results.

• Express how your research can challenge established theories in your field.
• Highlight how your work lays the groundwork for future research endeavors.
• Emphasize how your work can potentially address real-world problems.

5 Steps to crafting an effective research plan

Step 1: define the project purpose, step 2: select the research method, step 3: manage the task and timeline, step 4: write a summary, step 5: plan the result presentation.

• Brainstorm Collaboratively: Initiate a collective brainstorming session with peers or experts. Outline the essential questions that warrant exploration and answers within your research.
• Prioritize and Feasibility: Evaluate the list of questions and prioritize those that are achievable and important. Focus on questions that can realistically be addressed.
• Define Key Terminology: Define technical terms pertinent to your research, fostering a shared understanding. Ensure that terms like “church” or “unreached people group” are well-defined to prevent ambiguity.
• Organize your approach: Once well-acquainted with your institution’s regulations, organize each aspect of your research by these guidelines. Allocate appropriate word counts for different sections and components of your research paper.

Research plan example

• Writing a Research Paper
• Research Paper Title
• Research Paper Sources
• Research Paper Problem Statement
• Research Paper Thesis Statement
• Hypothesis for a Research Paper
• Research Question
• Research Paper Outline
• Research Paper Summary
• Research Paper Prospectus
• Research Paper Proposal
• Research Paper Format
• Research Paper Styles
• AMA Style Research Paper
• MLA Style Research Paper
• Chicago Style Research Paper
• APA Style Research Paper
• Research Paper Structure
• Research Paper Cover Page
• Research Paper Abstract
• Research Paper Introduction
• Research Paper Body Paragraph
• Research Paper Literature Review
• Research Paper Background
• Research Paper Methods Section
• Research Paper Results Section
• Research Paper Discussion Section
• Research Paper Conclusion
• Research Paper Appendix
• Research Paper Bibliography
• APA Reference Page
• Annotated Bibliography
• Bibliography vs Works Cited vs References Page
• Research Paper Types
• What is Qualitative Research

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Illustration by James Round

How to plan a research project

Whether for a paper or a thesis, define your question, review the work of others – and leave yourself open to discovery.

by Brooke Harrington   + BIO

is professor of sociology at Dartmouth College in New Hampshire. Her research has won international awards both for scholarly quality and impact on public life. She has published dozens of articles and three books, most recently the bestseller Capital without Borders (2016), now translated into five languages.

Edited by Sam Haselby

Need to know

‘When curiosity turns to serious matters, it’s called research.’ – From Aphorisms (1880-1905) by Marie von Ebner-Eschenbach

Planning research projects is a time-honoured intellectual exercise: one that requires both creativity and sharp analytical skills. The purpose of this Guide is to make the process systematic and easy to understand. While there is a great deal of freedom and discovery involved – from the topics you choose, to the data and methods you apply – there are also some norms and constraints that obtain, no matter what your academic level or field of study. For those in high school through to doctoral students, and from art history to archaeology, research planning involves broadly similar steps, including: formulating a question, developing an argument or predictions based on previous research, then selecting the information needed to answer your question.

Some of this might sound self-evident but, as you’ll find, research requires a different way of approaching and using information than most of us are accustomed to in everyday life. That is why I include orienting yourself to knowledge-creation as an initial step in the process. This is a crucial and underappreciated phase in education, akin to making the transition from salaried employment to entrepreneurship: suddenly, you’re on your own, and that requires a new way of thinking about your work.

What follows is a distillation of what I’ve learned about this process over 27 years as a professional social scientist. It reflects the skills that my own professors imparted in the sociology doctoral programme at Harvard, as well as what I learned later on as a research supervisor for Ivy League PhD and MA students, and then as the author of award-winning scholarly books and articles. It can be adapted to the demands of both short projects (such as course term papers) and long ones, such as a thesis.

At its simplest, research planning involves the four distinct steps outlined below: orienting yourself to knowledge-creation; defining your research question; reviewing previous research on your question; and then choosing relevant data to formulate your own answers. Because the focus of this Guide is on planning a research project, as opposed to conducting a research project, this section won’t delve into the details of data-collection or analysis; those steps happen after you plan the project. In addition, the topic is vast: year-long doctoral courses are devoted to data and analysis. Instead, the fourth part of this section will outline some basic strategies you could use in planning a data-selection and analysis process appropriate to your research question.

Step 1: Orient yourself

Planning and conducting research requires you to make a transition, from thinking like a consumer of information to thinking like a producer of information. That sounds simple, but it’s actually a complex task. As a practical matter, this means putting aside the mindset of a student, which treats knowledge as something created by other people. As students, we are often passive receivers of knowledge: asked to do a specified set of readings, then graded on how well we reproduce what we’ve read.

Researchers, however, must take on an active role as knowledge producers . Doing research requires more of you than reading and absorbing what other people have written: you have to engage in a dialogue with it. That includes arguing with previous knowledge and perhaps trying to show that ideas we have accepted as given are actually wrong or incomplete. For example, rather than simply taking in the claims of an author you read, you’ll need to draw out the implications of those claims: if what the author is saying is true, what else does that suggest must be true? What predictions could you make based on the author’s claims?

In other words, rather than treating a reading as a source of truth – even if it comes from a revered source, such as Plato or Marie Curie – this orientation step asks you to treat the claims you read as provisional and subject to interrogation. That is one of the great pieces of wisdom that science and philosophy can teach us: that the biggest advances in human understanding have been made not by being correct about trivial things, but by being wrong in an interesting way . For example, Albert Einstein was wrong about quantum mechanics, but his arguments about it with his fellow physicist Niels Bohr have led to some of the biggest breakthroughs in science, even a century later.

Step 2: Define your research question

Students often give this step cursory attention, but experienced researchers know that formulating a good question is sometimes the most difficult part of the research planning process. That is because the precise language of the question frames the rest of the project. It’s therefore important to pose the question carefully, in a way that’s both possible to answer and likely to yield interesting results. Of course, you must choose a question that interests you, but that’s only the beginning of what’s likely to be an iterative process: most researchers come back to this step repeatedly, modifying their questions in light of previous research, resource limitations and other considerations.

Researchers face limits in terms of time and money. They, like everyone else, have to pose research questions that they can plausibly answer given the constraints they face. For example, it would be inadvisable to frame a project around the question ‘What are the roots of the Arab-Israeli conflict?’ if you have only a week to develop an answer and no background on that topic. That’s not to limit your imagination: you can come up with any question you’d like. But it typically does require some creativity to frame a question that you can answer well – that is, by investigating thoroughly and providing new insights – within the limits you face.

In addition to being interesting to you, and feasible within your resource constraints, the third and most important characteristic of a ‘good’ research topic is whether it allows you to create new knowledge. It might turn out that your question has already been asked and answered to your satisfaction: if so, you’ll find out in the next step of this process. On the other hand, you might come up with a research question that hasn’t been addressed previously. Before you get too excited about breaking uncharted ground, consider this: a lot of potentially researchable questions haven’t been studied for good reason ; they might have answers that are trivial or of very limited interest. This could include questions such as ‘Why does the area of a circle equal π r²?’ or ‘Did winter conditions affect Napoleon’s plans to invade Russia?’ Of course, you might be able to make the argument that a seemingly trivial question is actually vitally important, but you must be prepared to back that up with convincing evidence. The exercise in the ‘Learn More’ section below will help you think through some of these issues.

Finally, scholarly research questions must in some way lead to new and distinctive insights. For example, lots of people have studied gender roles in sports teams; what can you ask that hasn’t been asked before? Reinventing the wheel is the number-one no-no in this endeavour. That’s why the next step is so important: reviewing previous research on your topic. Depending on what you find in that step, you might need to revise your research question; iterating between your question and the existing literature is a normal process. But don’t worry: it doesn’t go on forever. In fact, the iterations taper off – and your research question stabilises – as you develop a firm grasp of the current state of knowledge on your topic.

Step 3: Review previous research

In academic research, from articles to books, it’s common to find a section called a ‘literature review’. The purpose of that section is to describe the state of the art in knowledge on the research question that a project has posed. It demonstrates that researchers have thoroughly and systematically reviewed the relevant findings of previous studies on their topic, and that they have something novel to contribute.

Your own research project should include something like this, even if it’s a high-school term paper. In the research planning process, you’ll want to list at least half a dozen bullet points stating the major findings on your topic by other people. In relation to those findings, you should be able to specify where your project could provide new and necessary insights. There are two basic rhetorical positions one can take in framing the novelty-plus-importance argument required of academic research:

• Position 1 requires you to build on or extend a set of existing ideas; that means saying something like: ‘Person A has argued that X is true about gender; this implies Y, which has not yet been tested. My project will test Y, and if I find evidence to support it, that will change the way we understand gender.’
• Position 2 is to argue that there is a gap in existing knowledge, either because previous research has reached conflicting conclusions or has failed to consider something important. For example, one could say that research on middle schoolers and gender has been limited by being conducted primarily in coeducational environments, and that findings might differ dramatically if research were conducted in more schools where the student body was all-male or all-female.

Your overall goal in this step of the process is to show that your research will be part of a larger conversation: that is, how your project flows from what’s already known, and how it advances, extends or challenges that existing body of knowledge. That will be the contribution of your project, and it constitutes the motivation for your research.

Two things are worth mentioning about your search for sources of relevant previous research. First, you needn’t look only at studies on your precise topic. For example, if you want to study gender-identity formation in schools, you shouldn’t restrict yourself to studies of schools; the empirical setting (schools) is secondary to the larger social process that interests you (how people form gender identity). That process occurs in many different settings, so cast a wide net. Second, be sure to use legitimate sources – meaning publications that have been through some sort of vetting process, whether that involves peer review (as with academic journal articles you might find via Google Scholar) or editorial review (as you’d find in well-known mass media publications, such as The Economist or The Washington Post ). What you’ll want to avoid is using unvetted sources such as personal blogs or Wikipedia. Why? Because anybody can write anything in those forums, and there is no way to know – unless you’re already an expert – if the claims you find there are accurate. Often, they’re not.

Step 4: Choose your data and methods

Whatever your research question is, eventually you’ll need to consider which data source and analytical strategy are most likely to provide the answers you’re seeking. One starting point is to consider whether your question would be best addressed by qualitative data (such as interviews, observations or historical records), quantitative data (such as surveys or census records) or some combination of both. Your ideas about data sources will, in turn, suggest options for analytical methods.

You might need to collect your own data, or you might find everything you need readily available in an existing dataset someone else has created. A great place to start is with a research librarian: university libraries always have them and, at public universities, those librarians can work with the public, including people who aren’t affiliated with the university. If you don’t happen to have a public university and its library close at hand, an ordinary public library can still be a good place to start: the librarians are often well versed in accessing data sources that might be relevant to your study, such as the census, or historical archives, or the Survey of Consumer Finances.

Because your task at this point is to plan research, rather than conduct it, the purpose of this step is not to commit you irrevocably to a course of action. Instead, your goal here is to think through a feasible approach to answering your research question. You’ll need to find out, for example, whether the data you want exist; if not, do you have a realistic chance of gathering the data yourself, or would it be better to modify your research question? In terms of analysis, would your strategy require you to apply statistical methods? If so, do you have those skills? If not, do you have time to learn them, or money to hire a research assistant to run the analysis for you?

Please be aware that qualitative methods in particular are not the casual undertaking they might appear to be. Many people make the mistake of thinking that only quantitative data and methods are scientific and systematic, while qualitative methods are just a fancy way of saying: ‘I talked to some people, read some old newspapers, and drew my own conclusions.’ Nothing could be further from the truth. In the final section of this guide, you’ll find some links to resources that will provide more insight on standards and procedures governing qualitative research, but suffice it to say: there are rules about what constitutes legitimate evidence and valid analytical procedure for qualitative data, just as there are for quantitative data.

Circle back and consider revising your initial plans

As you work through these four steps in planning your project, it’s perfectly normal to circle back and revise. Research planning is rarely a linear process. It’s also common for new and unexpected avenues to suggest themselves. As the sociologist Thorstein Veblen wrote in 1908 : ‘The outcome of any serious research can only be to make two questions grow where only one grew before.’ That’s as true of research planning as it is of a completed project. Try to enjoy the horizons that open up for you in this process, rather than becoming overwhelmed; the four steps, along with the two exercises that follow, will help you focus your plan and make it manageable.

Key points – How to plan a research project

• Planning a research project is essential no matter your academic level or field of study. There is no one ‘best’ way to design research, but there are certain guidelines that can be helpfully applied across disciplines.
• Orient yourself to knowledge-creation. Make the shift from being a consumer of information to being a producer of information.
• Define your research question. Your question frames the rest of your project, sets the scope, and determines the kinds of answers you can find.
• Review previous research on your question. Survey the existing body of relevant knowledge to ensure that your research will be part of a larger conversation.
• Choose your data and methods. For instance, will you be collecting qualitative data, via interviews, or numerical data, via surveys?
• Circle back and consider revising your initial plans. Expect your research question in particular to undergo multiple rounds of refinement as you learn more about your topic.

Good research questions tend to beget more questions. This can be frustrating for those who want to get down to business right away. Try to make room for the unexpected: this is usually how knowledge advances. Many of the most significant discoveries in human history have been made by people who were looking for something else entirely. There are ways to structure your research planning process without over-constraining yourself; the two exercises below are a start, and you can find further methods in the Links and Books section.

The following exercise provides a structured process for advancing your research project planning. After completing it, you’ll be able to do the following:

• describe clearly and concisely the question you’ve chosen to study
• summarise the state of the art in knowledge about the question, and where your project could contribute new insight
• identify the best strategy for gathering and analysing relevant data

In other words, the following provides a systematic means to establish the building blocks of your research project.

Exercise 1: Definition of research question and sources

This exercise prompts you to select and clarify your general interest area, develop a research question, and investigate sources of information. The annotated bibliography will also help you refine your research question so that you can begin the second assignment, a description of the phenomenon you wish to study.

Jot down a few bullet points in response to these two questions, with the understanding that you’ll probably go back and modify your answers as you begin reading other studies relevant to your topic:

• What will be the general topic of your paper?
• What will be the specific topic of your paper?

b) Research question(s)

Use the following guidelines to frame a research question – or questions – that will drive your analysis. As with Part 1 above, you’ll probably find it necessary to change or refine your research question(s) as you complete future assignments.

• Your question should be phrased so that it can’t be answered with a simple ‘yes’ or ‘no’.
• Your question should have more than one plausible answer.
• Your question should draw relationships between two or more concepts; framing the question in terms of How? or What? often works better than asking Why ?

c) Annotated bibliography

Most or all of your background information should come from two sources: scholarly books and journals, or reputable mass media sources. You might be able to access journal articles electronically through your library, using search engines such as JSTOR and Google Scholar. This can save you a great deal of time compared with going to the library in person to search periodicals. General news sources, such as those accessible through LexisNexis, are acceptable, but should be cited sparingly, since they don’t carry the same level of credibility as scholarly sources. As discussed above, unvetted sources such as blogs and Wikipedia should be avoided, because the quality of the information they provide is unreliable and often misleading.

To create an annotated bibliography, provide the following information for at least 10 sources relevant to your specific topic, using the format suggested below.

Name of author(s):

Publication date:

Title of book, chapter, or article:

If a chapter or article, title of journal or book where they appear:

Brief description of this work, including main findings and methods ( c 75 words):

Summary of how this work contributes to your project ( c 75 words):

Brief description of the implications of this work ( c 25 words):

Identify any gap or controversy in knowledge this work points up, and how your project could address those problems ( c 50 words):

Exercise 2: Towards an analysis

Develop a short statement ( c 250 words) about the kind of data that would be useful to address your research question, and how you’d analyse it. Some questions to consider in writing this statement include:

• What are the central concepts or variables in your project? Offer a brief definition of each.
• Do any data sources exist on those concepts or variables, or would you need to collect data?
• Of the analytical strategies you could apply to that data, which would be the most appropriate to answer your question? Which would be the most feasible for you? Consider at least two methods, noting their advantages or disadvantages for your project.

Links & books

One of the best texts ever written about planning and executing research comes from a source that might be unexpected: a 60-year-old work on urban planning by a self-trained scholar. The classic book The Death and Life of Great American Cities (1961) by Jane Jacobs (available complete and free of charge via this link ) is worth reading in its entirety just for the pleasure of it. But the final 20 pages – a concluding chapter titled ‘The Kind of Problem a City Is’ – are really about the process of thinking through and investigating a problem. Highly recommended as a window into the craft of research.

Jacobs’s text references an essay on advancing human knowledge by the mathematician Warren Weaver. At the time, Weaver was director of the Rockefeller Foundation, in charge of funding basic research in the natural and medical sciences. Although the essay is titled ‘A Quarter Century in the Natural Sciences’ (1960) and appears at first blush to be merely a summation of one man’s career, it turns out to be something much bigger and more interesting: a meditation on the history of human beings seeking answers to big questions about the world. Weaver goes back to the 17th century to trace the origins of systematic research thinking, with enthusiasm and vivid anecdotes that make the process come alive. The essay is worth reading in its entirety, and is available free of charge via this link .

For those seeking a more in-depth, professional-level discussion of the logic of research design, the political scientist Harvey Starr provides insight in a compact format in the article ‘Cumulation from Proper Specification: Theory, Logic, Research Design, and “Nice” Laws’ (2005). Starr reviews the ‘research triad’, consisting of the interlinked considerations of formulating a question, selecting relevant theories and applying appropriate methods. The full text of the article, published in the scholarly journal Conflict Management and Peace Science , is available, free of charge, via this link .

Finally, the book Getting What You Came For (1992) by Robert Peters is not only an outstanding guide for anyone contemplating graduate school – from the application process onward – but it also includes several excellent chapters on planning and executing research, applicable across a wide variety of subject areas. It was an invaluable resource for me 25 years ago, and it remains in print with good reason; I recommend it to all my students, particularly Chapter 16 (‘The Thesis Topic: Finding It’), Chapter 17 (‘The Thesis Proposal’) and Chapter 18 (‘The Thesis: Writing It’).

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FLEET LIBRARY | Research Guides

Rhode island school of design, create a research plan: research plan.

• Research Plan
• Literature Review
• Ulrich's Global Serials Directory
• Related Guides

A research plan is a framework that shows how you intend to approach your topic. The plan can take many forms: a written outline, a narrative, a visual/concept map or timeline. It's a document that will change and develop as you conduct your research. Components of a research plan

1. Research conceptualization - introduces your research question

2. Research methodology - describes your approach to the research question

3. Literature review, critical evaluation and synthesis - systematic approach to locating,

    reviewing and evaluating the work (text, exhibitions, critiques, etc) relating to your topic

4. Communication - geared toward an intended audience, shows evidence of your inquiry

Research conceptualization refers to the ability to identify specific research questions, problems or opportunities that are worthy of inquiry. Research conceptualization also includes the skills and discipline that go beyond the initial moment of conception, and which enable the researcher to formulate and develop an idea into something researchable ( Newbury 373).

Research methodology refers to the knowledge and skills required to select and apply appropriate methods to carry through the research project ( Newbury 374) .

Method describes a single mode of proceeding; methodology describes the overall process.

Method - a way of doing anything especially according to a defined and regular plan; a mode of procedure in any activity

Methodology - the study of the direction and implications of empirical research, or the sustainability of techniques employed in it; a method or body of methods used in a particular field of study or activity *Browse a list of research methodology books  or this guide on Art & Design Research

Literature Review, critical evaluation & synthesis

A literature review is a systematic approach to locating, reviewing, and evaluating the published work and work in progress of scholars, researchers, and practitioners on a given topic.

Critical evaluation and synthesis is the ability to handle (or process) existing sources. It includes knowledge of the sources of literature and contextual research field within which the person is working ( Newbury 373).

Literature reviews are done for many reasons and situations. Here's a short list:

Sources to consult while conducting a literature review:

Online catalogs of local, regional, national, and special libraries

meta-catalogs such as worldcat , Art Discovery Group , europeana , world digital library or RIBA

subject-specific online article databases (such as the Avery Index, JSTOR, Project Muse)

digital institutional repositories such as Digital Commons @RISD ; see Registry of Open Access Repositories

Open Access Resources recommended by RISD Research LIbrarians

works cited in scholarly books and articles

print bibliographies

the internet-locate major nonprofit, research institutes, museum, university, and government websites

search google scholar to locate grey literature & referenced citations

trade and scholarly publishers

fellow scholars and peers

Communication                              

Communication refers to the ability to

• structure a coherent line of inquiry
• communicate your findings to your intended audience
• make skilled use of visual material to express ideas for presentations, writing, and the creation of exhibitions ( Newbury 374)

Research plan framework: Newbury, Darren. "Research Training in the Creative Arts and Design." The Routledge Companion to Research in the Arts . Ed. Michael Biggs and Henrik Karlsson. New York: Routledge, 2010. 368-87. Print.

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Except where otherwise noted, this guide is subject to a Creative Commons Attribution license

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• Last Updated: Sep 20, 2023 5:05 PM
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How To Write A Research Proposal

A Straightforward How-To Guide (With Examples)

By: Derek Jansen (MBA) | Reviewed By: Dr. Eunice Rautenbach | August 2019 (Updated April 2023)

Writing up a strong research proposal for a dissertation or thesis is much like a marriage proposal. It’s a task that calls on you to win somebody over and persuade them that what you’re planning is a great idea. An idea they’re happy to say ‘yes’ to. This means that your dissertation proposal needs to be   persuasive ,   attractive   and well-planned. In this post, I’ll show you how to write a winning dissertation proposal, from scratch.

Before you start:

– Understand exactly what a research proposal is – Ask yourself these 4 questions

The 5 essential ingredients:

• The title/topic
• The introduction chapter
• The scope/delimitations
• Preliminary literature review
• Design/ methodology
• Practical considerations and risks 

What Is A Research Proposal?

The research proposal is literally that: a written document that communicates what you propose to research, in a concise format. It’s where you put all that stuff that’s spinning around in your head down on to paper, in a logical, convincing fashion.

Convincing   is the keyword here, as your research proposal needs to convince the assessor that your research is   clearly articulated   (i.e., a clear research question) ,   worth doing   (i.e., is unique and valuable enough to justify the effort), and   doable   within the restrictions you’ll face (time limits, budget, skill limits, etc.). If your proposal does not address these three criteria, your research won’t be approved, no matter how “exciting” the research idea might be.

PS – if you’re completely new to proposal writing, we’ve got a detailed walkthrough video covering two successful research proposals here . 

How do I know I’m ready?

Before starting the writing process, you need to   ask yourself 4 important questions .  If you can’t answer them succinctly and confidently, you’re not ready – you need to go back and think more deeply about your dissertation topic .

You should be able to answer the following 4 questions before starting your dissertation or thesis research proposal:

• WHAT is my main research question? (the topic)
• WHO cares and why is this important? (the justification)
• WHAT data would I need to answer this question, and how will I analyse it? (the research design)
• HOW will I manage the completion of this research, within the given timelines? (project and risk management)

If you can’t answer these questions clearly and concisely,   you’re not yet ready   to write your research proposal – revisit our   post on choosing a topic .

If you can, that’s great – it’s time to start writing up your dissertation proposal. Next, I’ll discuss what needs to go into your research proposal, and how to structure it all into an intuitive, convincing document with a linear narrative.

The 5 Essential Ingredients

Research proposals can vary in style between institutions and disciplines, but here I’ll share with you a   handy 5-section structure   you can use. These 5 sections directly address the core questions we spoke about earlier, ensuring that you present a convincing proposal. If your institution already provides a proposal template, there will likely be substantial overlap with this, so you’ll still get value from reading on.

For each section discussed below, make sure you use headers and sub-headers (ideally, numbered headers) to help the reader navigate through your document, and to support them when they need to revisit a previous section. Don’t just present an endless wall of text, paragraph after paragraph after paragraph…

Top Tip:   Use MS Word Styles to format headings. This will allow you to be clear about whether a sub-heading is level 2, 3, or 4. Additionally, you can view your document in ‘outline view’ which will show you only your headings. This makes it much easier to check your structure, shift things around and make decisions about where a section needs to sit. You can also generate a 100% accurate table of contents using Word’s automatic functionality.

Ingredient #1 – Topic/Title Header

Your research proposal’s title should be your main research question in its simplest form, possibly with a sub-heading providing basic details on the specifics of the study. For example:

“Compliance with equality legislation in the charity sector: a study of the ‘reasonable adjustments’ made in three London care homes”

As you can see, this title provides a clear indication of what the research is about, in broad terms. It paints a high-level picture for the first-time reader, which gives them a taste of what to expect.   Always aim for a clear, concise title . Don’t feel the need to capture every detail of your research in your title – your proposal will fill in the gaps.

Need a helping hand?

Ingredient #2 – Introduction

In this section of your research proposal, you’ll expand on what you’ve communicated in the title, by providing a few paragraphs which offer more detail about your research topic. Importantly, the focus here is the   topic   – what will you research and why is that worth researching? This is not the place to discuss methodology, practicalities, etc. – you’ll do that later.

You should cover the following:

• An overview of the   broad area   you’ll be researching – introduce the reader to key concepts and language
• An explanation of the   specific (narrower) area   you’ll be focusing, and why you’ll be focusing there
• Your research   aims   and   objectives
• Your   research question (s) and sub-questions (if applicable)

Importantly, you should aim to use short sentences and plain language – don’t babble on with extensive jargon, acronyms and complex language. Assume that the reader is an intelligent layman – not a subject area specialist (even if they are). Remember that the   best writing is writing that can be easily understood   and digested. Keep it simple.

Note that some universities may want some extra bits and pieces in your introduction section. For example, personal development objectives, a structural outline, etc. Check your brief to see if there are any other details they expect in your proposal, and make sure you find a place for these.

Ingredient #3 – Scope

Next, you’ll need to specify what the scope of your research will be – this is also known as the delimitations . In other words, you need to make it clear what you will be covering and, more importantly, what you won’t be covering in your research. Simply put, this is about ring fencing your research topic so that you have a laser-sharp focus.

All too often, students feel the need to go broad and try to address as many issues as possible, in the interest of producing comprehensive research. Whilst this is admirable, it’s a mistake. By tightly refining your scope, you’ll enable yourself to   go deep   with your research, which is what you need to earn good marks. If your scope is too broad, you’re likely going to land up with superficial research (which won’t earn marks), so don’t be afraid to narrow things down.

Ingredient #4 – Literature Review

In this section of your research proposal, you need to provide a (relatively) brief discussion of the existing literature. Naturally, this will not be as comprehensive as the literature review in your actual dissertation, but it will lay the foundation for that. In fact, if you put in the effort at this stage, you’ll make your life a lot easier when it’s time to write your actual literature review chapter.

There are a few things you need to achieve in this section:

• Demonstrate that you’ve done your reading and are   familiar with the current state of the research   in your topic area.
• Show that   there’s a clear gap   for your specific research – i.e., show that your topic is sufficiently unique and will add value to the existing research.
• Show how the existing research has shaped your thinking regarding   research design . For example, you might use scales or questionnaires from previous studies.

When you write up your literature review, keep these three objectives front of mind, especially number two (revealing the gap in the literature), so that your literature review has a   clear purpose and direction . Everything you write should be contributing towards one (or more) of these objectives in some way. If it doesn’t, you need to ask yourself whether it’s truly needed.

Top Tip:  Don’t fall into the trap of just describing the main pieces of literature, for example, “A says this, B says that, C also says that…” and so on. Merely describing the literature provides no value. Instead, you need to   synthesise   it, and use it to address the three objectives above.

Ingredient #5 – Research Methodology

Now that you’ve clearly explained both your intended research topic (in the introduction) and the existing research it will draw on (in the literature review section), it’s time to get practical and explain exactly how you’ll be carrying out your own research. In other words, your research methodology.

In this section, you’ll need to   answer two critical questions :

• How   will you design your research? I.e., what research methodology will you adopt, what will your sample be, how will you collect data, etc.
• Why   have you chosen this design? I.e., why does this approach suit your specific research aims, objectives and questions?

In other words, this is not just about explaining WHAT you’ll be doing, it’s also about explaining WHY. In fact, the   justification is the most important part , because that justification is how you demonstrate a good understanding of research design (which is what assessors want to see).

Some essential design choices you need to cover in your research proposal include:

• Your intended research philosophy (e.g., positivism, interpretivism or pragmatism )
• What methodological approach you’ll be taking (e.g., qualitative , quantitative or mixed )
• The details of your sample (e.g., sample size, who they are, who they represent, etc.)
• What data you plan to collect (i.e. data about what, in what form?)
• How you plan to collect it (e.g., surveys , interviews , focus groups, etc.)
• How you plan to analyse it (e.g., regression analysis, thematic analysis , etc.)
• Ethical adherence (i.e., does this research satisfy all ethical requirements of your institution, or does it need further approval?)

This list is not exhaustive – these are just some core attributes of research design. Check with your institution what level of detail they expect. The “ research onion ” by Saunders et al (2009) provides a good summary of the various design choices you ultimately need to make – you can   read more about that here .

Don’t forget the practicalities…

In addition to the technical aspects, you will need to address the   practical   side of the project. In other words, you need to explain   what resources you’ll need   (e.g., time, money, access to equipment or software, etc.) and how you intend to secure these resources. You need to show that your project is feasible, so any “make or break” type resources need to already be secured. The success or failure of your project cannot depend on some resource which you’re not yet sure you have access to.

Another part of the practicalities discussion is   project and risk management . In other words, you need to show that you have a clear project plan to tackle your research with. Some key questions to address:

• What are the timelines for each phase of your project?
• Are the time allocations reasonable?
• What happens if something takes longer than anticipated (risk management)?
• What happens if you don’t get the response rate you expect?

A good way to demonstrate that you’ve thought this through is to include a Gantt chart and a risk register (in the appendix if word count is a problem). With these two tools, you can show that you’ve got a clear, feasible plan, and you’ve thought about and accounted for the potential risks.

Tip – Be honest about the potential difficulties – but show that you are anticipating solutions and workarounds. This is much more impressive to an assessor than an unrealistically optimistic proposal which does not anticipate any challenges whatsoever.

Final Touches: Read And Simplify

The final step is to edit and proofread your proposal – very carefully. It sounds obvious, but all too often poor editing and proofreading ruin a good proposal. Nothing is more off-putting for an assessor than a poorly edited, typo-strewn document. It sends the message that you either do not pay attention to detail, or just don’t care. Neither of these are good messages. Put the effort into editing and proofreading your proposal (or pay someone to do it for you) – it will pay dividends.

When you’re editing, watch out for ‘academese’. Many students can speak simply, passionately and clearly about their dissertation topic – but become incomprehensible the moment they turn the laptop on. You are not required to write in any kind of special, formal, complex language when you write academic work. Sure, there may be technical terms, jargon specific to your discipline, shorthand terms and so on. But, apart from those,   keep your written language very close to natural spoken language   – just as you would speak in the classroom. Imagine that you are explaining your project plans to your classmates or a family member. Remember, write for the intelligent layman, not the subject matter experts. Plain-language, concise writing is what wins hearts and minds – and marks!

Let’s Recap: Research Proposal 101

And there you have it – how to write your dissertation or thesis research proposal, from the title page to the final proof. Here’s a quick recap of the key takeaways:

• The purpose of the research proposal is to   convince   – therefore, you need to make a clear, concise argument of why your research is both worth doing and doable.
• Make sure you can ask the critical what, who, and how questions of your research   before   you put pen to paper.
• Title – provides the first taste of your research, in broad terms
• Introduction – explains what you’ll be researching in more detail
• Scope – explains the boundaries of your research
• Literature review – explains how your research fits into the existing research and why it’s unique and valuable
• Research methodology – explains and justifies how you will carry out your own research

Hopefully, this post has helped you better understand how to write up a winning research proposal. If you enjoyed it, be sure to check out the rest of the Grad Coach Blog . If your university doesn’t provide any template for your proposal, you might want to try out our free research proposal template .

Psst… there’s more!

This post is an extract from our bestselling short course, Research Proposal Bootcamp . If you want to work smart, you don't want to miss this .

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30 Comments

Thank you so much for the valuable insight that you have given, especially on the research proposal. That is what I have managed to cover. I still need to go back to the other parts as I got disturbed while still listening to Derek’s audio on you-tube. I am inspired. I will definitely continue with Grad-coach guidance on You-tube.

Thanks for the kind words :). All the best with your proposal.

First of all, thanks a lot for making such a wonderful presentation. The video was really useful and gave me a very clear insight of how a research proposal has to be written. I shall try implementing these ideas in my RP.

Once again, I thank you for this content.

I found reading your outline on writing research proposal very beneficial. I wish there was a way of submitting my draft proposal to you guys for critiquing before I submit to the institution.

Hi Bonginkosi

Thank you for the kind words. Yes, we do provide a review service. The best starting point is to have a chat with one of our coaches here: https://gradcoach.com/book/new/ .

Hello team GRADCOACH, may God bless you so much. I was totally green in research. Am so happy for your free superb tutorials and resources. Once again thank you so much Derek and his team.

You’re welcome, Erick. Good luck with your research proposal 🙂

thank you for the information. its precise and on point.

Really a remarkable piece of writing and great source of guidance for the researchers. GOD BLESS YOU for your guidance. Regards

Thanks so much for your guidance. It is easy and comprehensive the way you explain the steps for a winning research proposal.

Thank you guys so much for the rich post. I enjoyed and learn from every word in it. My problem now is how to get into your platform wherein I can always seek help on things related to my research work ? Secondly, I wish to find out if there is a way I can send my tentative proposal to you guys for examination before I take to my supervisor Once again thanks very much for the insights

Thanks for your kind words, Desire.

If you are based in a country where Grad Coach’s paid services are available, you can book a consultation by clicking the “Book” button in the top right.

Best of luck with your studies.

May God bless you team for the wonderful work you are doing,

If I have a topic, Can I submit it to you so that you can draft a proposal for me?? As I am expecting to go for masters degree in the near future.

Thanks for your comment. We definitely cannot draft a proposal for you, as that would constitute academic misconduct. The proposal needs to be your own work. We can coach you through the process, but it needs to be your own work and your own writing.

Best of luck with your research!

I found a lot of many essential concepts from your material. it is real a road map to write a research proposal. so thanks a lot. If there is any update material on your hand on MBA please forward to me.

GradCoach is a professional website that presents support and helps for MBA student like me through the useful online information on the page and with my 1-on-1 online coaching with the amazing and professional PhD Kerryen.

Thank you Kerryen so much for the support and help 🙂

I really recommend dealing with such a reliable services provider like Gradcoah and a coach like Kerryen.

Hi, Am happy for your service and effort to help students and researchers, Please, i have been given an assignment on research for strategic development, the task one is to formulate a research proposal to support the strategic development of a business area, my issue here is how to go about it, especially the topic or title and introduction. Please, i would like to know if you could help me and how much is the charge.

This content is practical, valuable, and just great!

Thank you very much!

Hi Derek, Thank you for the valuable presentation. It is very helpful especially for beginners like me. I am just starting my PhD.

This is quite instructive and research proposal made simple. Can I have a research proposal template?

Great! Thanks for rescuing me, because I had no former knowledge in this topic. But with this piece of information, I am now secured. Thank you once more.

I enjoyed listening to your video on how to write a proposal. I think I will be able to write a winning proposal with your advice. I wish you were to be my supervisor.

Dear Derek Jansen,

Thank you for your great content. I couldn’t learn these topics in MBA, but now I learned from GradCoach. Really appreciate your efforts….

From Afghanistan!

I have got very essential inputs for startup of my dissertation proposal. Well organized properly communicated with video presentation. Thank you for the presentation.

Wow, this is absolutely amazing guys. Thank you so much for the fruitful presentation, you’ve made my research much easier.

this helps me a lot. thank you all so much for impacting in us. may god richly bless you all

How I wish I’d learn about Grad Coach earlier. I’ve been stumbling around writing and rewriting! Now I have concise clear directions on how to put this thing together. Thank you!

Fantastic!! Thank You for this very concise yet comprehensive guidance.

Even if I am poor in English I would like to thank you very much.

Thank you very much, this is very insightful.

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Methodology

• What Is a Research Design | Types, Guide & Examples

What Is a Research Design | Types, Guide & Examples

Published on June 7, 2021 by Shona McCombes . Revised on November 20, 2023 by Pritha Bhandari.

A research design is a strategy for answering your   research question  using empirical data. Creating a research design means making decisions about:

• Your overall research objectives and approach
• Whether you’ll rely on primary research or secondary research
• Your sampling methods or criteria for selecting subjects
• Your data collection methods
• The procedures you’ll follow to collect data
• Your data analysis methods

A well-planned research design helps ensure that your methods match your research objectives and that you use the right kind of analysis for your data.

Table of contents

Step 1: consider your aims and approach, step 2: choose a type of research design, step 3: identify your population and sampling method, step 4: choose your data collection methods, step 5: plan your data collection procedures, step 6: decide on your data analysis strategies, other interesting articles, frequently asked questions about research design.

• Introduction

Before you can start designing your research, you should already have a clear idea of the research question you want to investigate.

There are many different ways you could go about answering this question. Your research design choices should be driven by your aims and priorities—start by thinking carefully about what you want to achieve.

The first choice you need to make is whether you’ll take a qualitative or quantitative approach.

Qualitative research designs tend to be more flexible and inductive , allowing you to adjust your approach based on what you find throughout the research process.

Quantitative research designs tend to be more fixed and deductive , with variables and hypotheses clearly defined in advance of data collection.

It’s also possible to use a mixed-methods design that integrates aspects of both approaches. By combining qualitative and quantitative insights, you can gain a more complete picture of the problem you’re studying and strengthen the credibility of your conclusions.

Practical and ethical considerations when designing research

As well as scientific considerations, you need to think practically when designing your research. If your research involves people or animals, you also need to consider research ethics .

• How much time do you have to collect data and write up the research?
• Will you be able to gain access to the data you need (e.g., by travelling to a specific location or contacting specific people)?
• Do you have the necessary research skills (e.g., statistical analysis or interview techniques)?
• Will you need ethical approval ?

At each stage of the research design process, make sure that your choices are practically feasible.

Prevent plagiarism. Run a free check.

Within both qualitative and quantitative approaches, there are several types of research design to choose from. Each type provides a framework for the overall shape of your research.

Types of quantitative research designs

Quantitative designs can be split into four main types.

• Experimental and   quasi-experimental designs allow you to test cause-and-effect relationships
• Descriptive and correlational designs allow you to measure variables and describe relationships between them.

With descriptive and correlational designs, you can get a clear picture of characteristics, trends and relationships as they exist in the real world. However, you can’t draw conclusions about cause and effect (because correlation doesn’t imply causation ).

Experiments are the strongest way to test cause-and-effect relationships without the risk of other variables influencing the results. However, their controlled conditions may not always reflect how things work in the real world. They’re often also more difficult and expensive to implement.

Types of qualitative research designs

Qualitative designs are less strictly defined. This approach is about gaining a rich, detailed understanding of a specific context or phenomenon, and you can often be more creative and flexible in designing your research.

The table below shows some common types of qualitative design. They often have similar approaches in terms of data collection, but focus on different aspects when analyzing the data.

Your research design should clearly define who or what your research will focus on, and how you’ll go about choosing your participants or subjects.

In research, a population is the entire group that you want to draw conclusions about, while a sample is the smaller group of individuals you’ll actually collect data from.

Defining the population

A population can be made up of anything you want to study—plants, animals, organizations, texts, countries, etc. In the social sciences, it most often refers to a group of people.

For example, will you focus on people from a specific demographic, region or background? Are you interested in people with a certain job or medical condition, or users of a particular product?

The more precisely you define your population, the easier it will be to gather a representative sample.

• Sampling methods

Even with a narrowly defined population, it’s rarely possible to collect data from every individual. Instead, you’ll collect data from a sample.

To select a sample, there are two main approaches: probability sampling and non-probability sampling . The sampling method you use affects how confidently you can generalize your results to the population as a whole.

Probability sampling is the most statistically valid option, but it’s often difficult to achieve unless you’re dealing with a very small and accessible population.

For practical reasons, many studies use non-probability sampling, but it’s important to be aware of the limitations and carefully consider potential biases. You should always make an effort to gather a sample that’s as representative as possible of the population.

Case selection in qualitative research

In some types of qualitative designs, sampling may not be relevant.

For example, in an ethnography or a case study , your aim is to deeply understand a specific context, not to generalize to a population. Instead of sampling, you may simply aim to collect as much data as possible about the context you are studying.

In these types of design, you still have to carefully consider your choice of case or community. You should have a clear rationale for why this particular case is suitable for answering your research question .

For example, you might choose a case study that reveals an unusual or neglected aspect of your research problem, or you might choose several very similar or very different cases in order to compare them.

Data collection methods are ways of directly measuring variables and gathering information. They allow you to gain first-hand knowledge and original insights into your research problem.

You can choose just one data collection method, or use several methods in the same study.

Survey methods

Surveys allow you to collect data about opinions, behaviors, experiences, and characteristics by asking people directly. There are two main survey methods to choose from: questionnaires and interviews .

Observation methods

Observational studies allow you to collect data unobtrusively, observing characteristics, behaviors or social interactions without relying on self-reporting.

Observations may be conducted in real time, taking notes as you observe, or you might make audiovisual recordings for later analysis. They can be qualitative or quantitative.

Other methods of data collection

There are many other ways you might collect data depending on your field and topic.

If you’re not sure which methods will work best for your research design, try reading some papers in your field to see what kinds of data collection methods they used.

Secondary data

If you don’t have the time or resources to collect data from the population you’re interested in, you can also choose to use secondary data that other researchers already collected—for example, datasets from government surveys or previous studies on your topic.

With this raw data, you can do your own analysis to answer new research questions that weren’t addressed by the original study.

Using secondary data can expand the scope of your research, as you may be able to access much larger and more varied samples than you could collect yourself.

However, it also means you don’t have any control over which variables to measure or how to measure them, so the conclusions you can draw may be limited.

As well as deciding on your methods, you need to plan exactly how you’ll use these methods to collect data that’s consistent, accurate, and unbiased.

Planning systematic procedures is especially important in quantitative research, where you need to precisely define your variables and ensure your measurements are high in reliability and validity.

Operationalization

Some variables, like height or age, are easily measured. But often you’ll be dealing with more abstract concepts, like satisfaction, anxiety, or competence. Operationalization means turning these fuzzy ideas into measurable indicators.

If you’re using observations , which events or actions will you count?

If you’re using surveys , which questions will you ask and what range of responses will be offered?

You may also choose to use or adapt existing materials designed to measure the concept you’re interested in—for example, questionnaires or inventories whose reliability and validity has already been established.

Reliability and validity

Reliability means your results can be consistently reproduced, while validity means that you’re actually measuring the concept you’re interested in.

For valid and reliable results, your measurement materials should be thoroughly researched and carefully designed. Plan your procedures to make sure you carry out the same steps in the same way for each participant.

If you’re developing a new questionnaire or other instrument to measure a specific concept, running a pilot study allows you to check its validity and reliability in advance.

Sampling procedures

As well as choosing an appropriate sampling method , you need a concrete plan for how you’ll actually contact and recruit your selected sample.

That means making decisions about things like:

• How many participants do you need for an adequate sample size?
• What inclusion and exclusion criteria will you use to identify eligible participants?
• How will you contact your sample—by mail, online, by phone, or in person?

If you’re using a probability sampling method , it’s important that everyone who is randomly selected actually participates in the study. How will you ensure a high response rate?

If you’re using a non-probability method , how will you avoid research bias and ensure a representative sample?

Data management

It’s also important to create a data management plan for organizing and storing your data.

Will you need to transcribe interviews or perform data entry for observations? You should anonymize and safeguard any sensitive data, and make sure it’s backed up regularly.

Keeping your data well-organized will save time when it comes to analyzing it. It can also help other researchers validate and add to your findings (high replicability ).

On its own, raw data can’t answer your research question. The last step of designing your research is planning how you’ll analyze the data.

Quantitative data analysis

In quantitative research, you’ll most likely use some form of statistical analysis . With statistics, you can summarize your sample data, make estimates, and test hypotheses.

Using descriptive statistics , you can summarize your sample data in terms of:

• The distribution of the data (e.g., the frequency of each score on a test)
• The central tendency of the data (e.g., the mean to describe the average score)
• The variability of the data (e.g., the standard deviation to describe how spread out the scores are)

The specific calculations you can do depend on the level of measurement of your variables.

Using inferential statistics , you can:

• Make estimates about the population based on your sample data.
• Test hypotheses about a relationship between variables.

Regression and correlation tests look for associations between two or more variables, while comparison tests (such as t tests and ANOVAs ) look for differences in the outcomes of different groups.

Your choice of statistical test depends on various aspects of your research design, including the types of variables you’re dealing with and the distribution of your data.

Qualitative data analysis

In qualitative research, your data will usually be very dense with information and ideas. Instead of summing it up in numbers, you’ll need to comb through the data in detail, interpret its meanings, identify patterns, and extract the parts that are most relevant to your research question.

Two of the most common approaches to doing this are thematic analysis and discourse analysis .

There are many other ways of analyzing qualitative data depending on the aims of your research. To get a sense of potential approaches, try reading some qualitative research papers in your field.

If you want to know more about the research process , methodology , research bias , or statistics , make sure to check out some of our other articles with explanations and examples.

• Simple random sampling
• Stratified sampling
• Cluster sampling
• Likert scales
• Reproducibility

 Statistics

• Null hypothesis
• Statistical power
• Probability distribution
• Effect size
• Poisson distribution

Research bias

• Optimism bias
• Cognitive bias
• Implicit bias
• Hawthorne effect
• Anchoring bias
• Explicit bias

A research design is a strategy for answering your   research question . It defines your overall approach and determines how you will collect and analyze data.

A well-planned research design helps ensure that your methods match your research aims, that you collect high-quality data, and that you use the right kind of analysis to answer your questions, utilizing credible sources . This allows you to draw valid , trustworthy conclusions.

Quantitative research designs can be divided into two main categories:

• Correlational and descriptive designs are used to investigate characteristics, averages, trends, and associations between variables.
• Experimental and quasi-experimental designs are used to test causal relationships .

Qualitative research designs tend to be more flexible. Common types of qualitative design include case study , ethnography , and grounded theory designs.

The priorities of a research design can vary depending on the field, but you usually have to specify:

• Your research questions and/or hypotheses
• Your overall approach (e.g., qualitative or quantitative )
• The type of design you’re using (e.g., a survey , experiment , or case study )
• Your data collection methods (e.g., questionnaires , observations)
• Your data collection procedures (e.g., operationalization , timing and data management)
• Your data analysis methods (e.g., statistical tests  or thematic analysis )

A sample is a subset of individuals from a larger population . Sampling means selecting the group that you will actually collect data from in your research. For example, if you are researching the opinions of students in your university, you could survey a sample of 100 students.

In statistics, sampling allows you to test a hypothesis about the characteristics of a population.

Operationalization means turning abstract conceptual ideas into measurable observations.

For example, the concept of social anxiety isn’t directly observable, but it can be operationally defined in terms of self-rating scores, behavioral avoidance of crowded places, or physical anxiety symptoms in social situations.

Before collecting data , it’s important to consider how you will operationalize the variables that you want to measure.

A research project is an academic, scientific, or professional undertaking to answer a research question . Research projects can take many forms, such as qualitative or quantitative , descriptive , longitudinal , experimental , or correlational . What kind of research approach you choose will depend on your topic.

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How to Write a Research Plan

Your answers to these questions form your research strategy. Most likely, you’ve addressed some of these issues in your proposal. But you are further along now, and you can flesh out your answers. With your instructor’s help, you should make some basic decisions about what information to collect and what methods to use in analyzing it. You will probably develop this research strategy gradually and, if you are like the rest of us, you will make some changes, large and small, along the way. Still, it is useful to devise a general plan early, even though you will modify it as you progress. Develop a tentative research plan early in the project. Write it down and share it with your instructor. The more concrete and detailed the plan, the better the feedback you’ll get.

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This research plan does not need to be elaborate or time-consuming. Like your working bibliography, it is provisional, a work in progress. Still, it is helpful to write it down since it will clarify a number of issues for you and your professor.

Writing a Research Plan

To write out your research plan, begin by restating your main thesis question and any secondary ones. They may have changed a bit since your original proposal. If these questions bear on a particular theory or analytic perspective, state that briefly. In the social sciences, for example, two or three prominent theories might offer different predictions about your subject. If so, then you might want to explore these differences in your thesis and explain why some theories work better (or worse) in this particular case. Likewise, in the humanities, you might consider how different theories offer different insights and contrasting perspectives on the particular novel or film you are studying. If you intend to explore these differences, state your goal clearly in the research plan so you can discuss it later with your professor. Next, turn to the heart of this exercise, your proposed research strategy. Try to explain your basic approach, the materials you will use, and your method of analysis. You may not know all of these elements yet, but do the best you can. Briefly say how and why you think they will help answer your main questions.

Be concrete. What data will you collect? Which poems will you read? Which paintings will you compare? Which historical cases will you examine? If you plan to use case studies, say whether you have already selected them or settled on the criteria for choosing them. Have you decided which documents and secondary sources are most important? Do you have easy access to the data, documents, or other materials you need? Are they reliable sources—the best information you can get on the subject? Give the answers if you have them, or say plainly that you don’t know so your instructor can help. You should also discuss whether your research requires any special skills and, of course, whether you have them. You can—and should—tailor your work to fit your skills.

If you expect to challenge other approaches—an important element of some theses—which ones will you take on, and why? This last point can be put another way: Your project will be informed by some theoretical traditions and research perspectives and not others. Your research will be stronger if you clarify your own perspective and show how it usefully informs your work. Later, you may also enter the jousts and explain why your approach is superior to the alternatives, in this particular study and perhaps more generally. Your research plan should state these issues clearly so you can discuss them candidly and think them through.

If you plan to conduct tests, experiments, or surveys, discuss them, too. They are common research tools in many fields, from psychology and education to public health. Now is the time to spell out the details—the ones you have nailed down tight and the ones that are still rattling around, unresolved. It’s important to bring up the right questions here, even if you don’t have all the answers yet. Raising these questions directly is the best way to get the answers. What kinds of tests or experiments do you plan, and how will you measure the results? How will you recruit your test subjects, and how many will be included in your sample? What test instruments or observational techniques will you use? How reliable and valid are they? Your instructor can be a great source of feedback here.

Your research plan should say:

• What materials you will use
• What methods you will use to investigate them
• Whether your work follow a particular approach or theory

There are also ethical issues to consider. They crop up in any research involving humans or animals. You need to think carefully about them, underscore potential problems, and discuss them with your professor. You also need to clear this research in advance with the appropriate authorities at your school, such as the committee that reviews proposals for research on human subjects.

Not all these issues and questions will bear on your particular project. But some do, and you should wrestle with them as you begin research. Even if your answers are tentative, you will still gain from writing them down and sharing them with your instructor. That’s how you will get the most comprehensive advice, the most pointed recommendations. If some of these issues puzzle you, or if you have already encountered some obstacles, share them, too, so you can either resolve the problems or find ways to work around them.

Remember, your research plan is simply a working product, designed to guide your ongoing inquiry. It’s not a final paper for a grade; it’s a step toward your final paper. Your goal in sketching it out now is to understand these issues better and get feedback from faculty early in the project. It may be a pain to write it out, but it’s a minor sting compared to major surgery later.

Checklist for Conducting Research

• Familiarize yourself with major questions and debates about your topic.
• Is appropriate to your topic;
• Addresses the main questions you propose in your thesis;
• Relies on materials to which you have access;
• Can be accomplished within the time available;
• Uses skills you have or can acquire.
• Divide your topic into smaller projects and do research on each in turn.
• Write informally as you do research; do not postpone this prewriting until all your research is complete.

Back to How To Write A Research Paper .

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Writing the Research Plan for Your Academic Job Application

By Jason G. Gillmore, Ph.D., Associate Professor, Department of Chemistry, Hope College, Holland, MI

A research plan is more than a to-do list for this week in lab, or a manila folder full of ideas for maybe someday—at least if you are thinking of a tenure-track academic career in chemistry at virtually any bachelor’s or higher degree–granting institution in the country. A perusal of the academic job ads in C&EN every August–October will quickly reveal that most schools expect a cover letter (whether they say so or not), a CV, a teaching statement, and a research plan, along with reference letters and transcripts. So what is this document supposed to be, and why worry about it now when those job ads are still months away?

What Is a Research Plan?

A research plan is a thoughtful, compelling, well-written document that outlines your exciting, unique research ideas that you and your students will pursue over the next half decade or so to advance knowledge in your discipline and earn you grants, papers, speaking invitations, tenure, promotion, and a national reputation. It must be a document that people at the department you hope to join will (a) read, and (b) be suitably excited about to invite you for an interview.

That much I knew when I was asked to write this article. More specifics I only really knew for my own institution, Hope College (a research intensive undergraduate liberal arts college with no graduate program), and even there you might get a dozen nuanced opinions among my dozen colleagues. So I polled a broad cross-section of my network, spanning chemical subdisciplines at institutions ranging from small, teaching-centered liberal arts colleges to our nation’s elite research programs, such as Scripps and MIT. The responses certainly varied, but they did center on a few main themes, or illustrate a trend across institution types. In this article I’ll share those commonalities, while also encouraging you to be unafraid to contact a search committee chair with a few specific questions, especially for the institutions you are particularly excited about and feel might be the best fit for you.

How Many Projects Should You Have?

While more senior advisors and members of search committees may have gotten their jobs with a single research project, conventional wisdom these days is that you need two to three distinct but related projects. How closely related to one another they should be is a matter of debate, but almost everyone I asked felt that there should be some unifying technique, problem or theme to them. However, the projects should be sufficiently disparate that a failure of one key idea, strategy, or technique will not hamstring your other projects.

For this reason, many applicants wisely choose to identify:

• One project that is a safe bet—doable, fundable, publishable, good but not earthshaking science.
• A second project that is pie-in-the-sky with high risks and rewards.
• A third project that fits somewhere in the middle.

Having more than three projects is probably unrealistic. But even the safest project must be worth doing, and even the riskiest must appear to have a reasonable chance of working.

How Closely Connected Should Your Research Be with Your Past?

Your proposed research must do more than extend what you have already done. In most subdisciplines, you must be sufficiently removed from your postdoctoral or graduate work that you will not be lambasted for clinging to an advisor’s apron strings. After all, if it is such a good idea in their immediate area of interest, why aren’t they pursuing it?!?

But you also must be able to make the case for why your training makes this a good problem for you to study—how you bring a unique skill set as well as unique ideas to this research. The five years you will have to do, fund, and publish the research before crafting your tenure package will go by too fast for you to break into something entirely outside your realm of expertise.

Biochemistry is a partial exception to this advice—in this subdiscipline it is quite common to bring a project with you from a postdoc (or more rarely your Ph.D.) to start your independent career. However, you should still articulate your original contribution to, and unique angle on the work. It is also wise to be sure your advisor tells that same story in his or her letter and articulates support of your pursuing this research in your career as a genuinely independent scientist (and not merely someone who could be perceived as his or her latest "flunky" of a collaborator.)

Should You Discuss Potential Collaborators?

Regarding collaboration, tread lightly as a young scientist seeking or starting an independent career. Being someone with whom others can collaborate in the future is great. Relying on collaborators for the success of your projects is unwise. Be cautious about proposing to continue collaborations you already have (especially with past advisors) and about starting new ones where you might not be perceived as the lead PI. Also beware of presuming you can help advance the research of someone already in a department. Are they still there? Are they still doing that research? Do they actually want that help—or will they feel like you are criticizing or condescending to them, trying to scoop them, or seeking to ride their coattails? Some places will view collaboration very favorably, but the safest route is to cautiously float such ideas during interviews while presenting research plans that are exciting and achievable on your own.

How Do You Show Your Fit?

Some faculty advise tailoring every application packet document to every institution to which you apply, while others suggest tweaking only the cover letter. Certainly the cover letter is the document most suited to introducing yourself and making the case for how you are the perfect fit for the advertised position at that institution. So save your greatest degree of tailoring for your cover letter. It is nice if you can tweak a few sentences of other documents to highlight your fit to a specific school, so long as it is not contrived.

Now, if you are applying to widely different types of institutions, a few different sets of documents will certainly be necessary. The research plan that you target in the middle to get you a job at both Harvard University and Hope College will not get you an interview at either! There are different realities of resources, scope, scale, and timeline. Not that my colleagues and I at Hope cannot tackle research that is just as exciting as Harvard’s. However, we need to have enough of a niche or a unique angle both to endure the longer timeframe necessitated by smaller groups of undergraduate researchers and to ensure that we still stand out. Furthermore, we generally need to be able to do it with more limited resources. If you do not demonstrate that understanding, you will be dismissed out of hand. But at many large Ph.D. programs, any consideration of "niche" can be inferred as a lack of confidence or ambition.

Also, be aware that department Web pages (especially those several pages deep in the site, or maintained by individual faculty) can be woefully out-of-date. If something you are planning to say is contingent on something you read on their Web site, find a way to confirm it!

While the research plan is not the place to articulate start-up needs, you should consider instrumentation and other resources that will be necessary to get started, and where you will go for funding or resources down the road. This will come up in interviews, and hopefully you will eventually need these details to negotiate a start-up package.

Who Is Your Audience?

Your research plan should show the big picture clearly and excite a broad audience of chemists across your sub-discipline. At many educational institutions, everyone in the department will read the proposal critically, at least if you make the short list to interview. Even at departments that leave it all to a committee of the subdiscipline, subdisciplines can be broad and might even still have an outside member on the committee. And the committee needs to justify their actions to the department at large, as well as to deans, provosts, and others. So having at least the introduction and executive summaries of your projects comprehensible and compelling to those outside your discipline is highly advantageous.

Good science, written well, makes a good research plan. As you craft and refine your research plan, keep the following strategies, as well as your audience in mind:

• Begin the document with an abstract or executive summary that engages a broad audience and shows synergies among your projects. This should be one page or less, and you should probably write it last. This page is something you could manageably consider tailoring to each institution.
• Provide sufficient details and references to convince the experts you know your stuff and actually have a plan for what your group will be doing in the lab. Give details of first and key experiments, and backup plans or fallback positions for their riskiest aspects.
• Hook your readers with your own ideas fairly early in the document, then strike a balance between your own new ideas and the necessary well referenced background, precedents, and justification throughout. Propose a reasonable tentative timeline, if you can do so in no more than a paragraph or two, which shows how you envision spacing out the experiments within and among your projects. This may fit well into your executive summary
• Show how you will involve students (whether undergraduates, graduate students, an eventual postdoc or two, possibly even high schoolers if the school has that sort of outreach, depending on the institutions to which you are applying) and divide the projects among students.
• Highlight how your work will contribute to the education of these students. While this is especially important at schools with greater teaching missions, it can help set you apart even at research intensive institutions. After all, we all have to demonstrate “broader impacts” to our funding agencies!
• Include where you will pursue funding, as well as publication, if you can smoothly work it in. This is especially true if there is doubt about how you plan to target or "market" your research. Otherwise, it is appropriate to hold off until the interview to discuss this strategy.

So, How Long Should Your Research Plan Be?

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Here is where the answers diverged the most and without a unifying trend across institutions. Bottom line, you need space to make your case, but even more, you need people to read what you write.

A single page abstract or executive summary of all your projects together provides you an opportunity to make the case for unifying themes yet distinct projects. It may also provide space to articulate a timeline. Indeed, many readers will only read this single page in each application, at least until winnowing down to a more manageable list of potential candidates. At the most elite institutions, there may be literally hundreds of applicants, scores of them entirely well-suited to the job.

While three to five pages per proposal was a common response (single spaced, in 11-point Arial or 12-point Times with one inch margins), including references (which should be accurate, appropriate, and current!), some of my busiest colleagues have said they will not read more than about three pages total. Only a few actually indicated they would read up to 12-15 pages for three projects. In my opinion, ten pages total for your research plans should be a fairly firm upper limit unless you are specifically told otherwise by a search committee, and then only if you have two to three distinct proposals.

Why Start Now?

Hopefully, this question has answered itself already! Your research plan needs to be a well thought out document that is an integrated part of applications tailored to each institution to which you apply. It must represent mature ideas that you have had time to refine through multiple revisions and a great deal of critical review from everyone you can get to read them. Moreover, you may need a few different sets of these, especially if you will be applying to a broad range of institutions. So add “write research plans” to this week’s to do list (and every week’s for the next few months) and start writing up the ideas in that manila folder into some genuine research plans. See which ones survive the process and rise to the top and you should be well prepared when the job ads begin to appear in C&EN in August!

Jason G. Gillmore , Ph.D., is an Associate Professor of Chemistry at Hope College in Holland, MI. A native of New Jersey, he earned his B.S. (’96) and M.S. (’98) degrees in chemistry from Virginia Tech, and his Ph.D. (’03) in organic chemistry from the University of Rochester. After a short postdoctoral traineeship at Vanderbilt University, he joined the faculty at Hope in 2004. He has received the Dreyfus Start-up Award, Research Corporation Cottrell College Science Award, and NSF CAREER Award, and is currently on sabbatical as a Visiting Research Professor at Arizona State University. Professor Gillmore is the organizer of the Biennial Midwest Postdoc to PUI Professor (P3) Workshop co-sponsored by ACS, and a frequent panelist at the annual ACS Postdoc to Faculty (P2F) Workshops.

Other tips to help engage (or at least not turn off) your readers include:

• Avoid two-column formats.
• Avoid too-small fonts that hinder readability, especially as many will view the documents online rather than in print!
• Use good figures that are readable and broadly understandable!
• Use color as necessary but not gratuitously.

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Creating a Research Plan

Creating a Research Plan for a Science Project Before starting work on a science project, a research plan should be created. While many researchers merely do this “in their head”, it should be formally contained within a document. The research plan describes many aspects of the project. It will help both the researchers and mentors understand the overall approach that is planned for the project. The contents of this web page should serve as a guide for creating a research plan.

A written research plan should contain a description of the following. 1. The goals of the project 2. The hypothesis 3. The factors that will be studied 4. The responses (results) that will be observed 5. How the data will be analyzed and interpreted 6. The materials and equipment that will be used 7. The experimental methods (procedure) that will be used 8. The facilities where the work will be done 9. How the research plan might change 10. Summary

11. A bibliography that includes at least five major references.

NOTE : Steps 1-5 are focused on setting up the overall ideas and objectives. Steps 6-8 are focused on the specifics of the experimentation, such as what, how, and where the experimentation will be performed. Steps 9-11 are important for anyone looking over the project, but are particularly important if you are applying for pre-approval because it gives those reviewing the application a better sense of how well the planning was done.

The Goals of the Project A description of the goals of the project should be a general discussion of the project. What will be studied? Why is it of interest? What do you hope to learn? This will set the stage for the rest of the research plan.

The Hypothesis Here is where the scientific hypothesis is laid out. A proposal is made about the factors to be studied and how they might affect the responses of interest. For example, a hypothesis about the growth of maple tree saplings might start with: “We believe that recently-sprouted maple tree saplings will have their growth stunted by excessive exposure to ultraviolet light.” From here, the hypothesis is discussed in enough detail for the reader to understand exactly what is being proposed about the state of the natural world that you hope to either prove or disprove.

The Factors That Will Be Studied In this section, you will spell out which factors will be studied in your research project as well as those that will be held constant. The factors that you study are the ones that you vary in a controlled fashion in order to explore the hypothesis. The factors that are held constant are factors that you do not want to affect the outcome of your experiment. A perfect example of these two kinds of factors at work would be growing plants in a greenhouse. The factors that are varied (for example, adding nutrients to the soil) will have the best chance of being the ones that affect the plants’ growth. By using a greenhouse, the factors that you do not wish to affect the outcome of your experiment (such as exposure of the plants to wind, rain, or animals) will not have a chance to affect the outcome.

The Responses (Results) That Will Be Observed The response is the result you observe as the output of your experiments. An observation may be qualitative (for example, a change of color) or quantitative (for example, a change in height determined by a measurement). In a chemical experiment the product of the reaction is the response. A botanical experiment might have the change in height of the plant or the number of leaves on the plant at the end of the growing period as the response. Mention should be made if you plan to get assistance in measuring your response by using an outside expert in the field of study.

How the Data Will Be Analyzed and Interpreted This section should discuss how the responses (results) will be treated in order to make conclusions about your work. How will the data be compared in order to make a conclusion? Will an average response be calculated? Standard deviation? Will a visual examination of the experiments be used as the basis of the data analysis? Include any details that will help the reader understand how the responses that were observed will be turned into understandable conclusions about your project.

The Materials and Equipment That Will Be Used In this part, the materials (expendables) and equipment that will be used for the science project are discussed. Will the materials be collected from nature? Will they be purchased from a scientific supply house? Will you use special glassware that is provided by your school? Describe the materials and equipment in enough detail so that someone can understand how they will be used in your science project.

The Experimental Methods (Procedure) That Will Be Used This section will cover how you will carry out your experiments. You will describe the methods (procedures) that you will use during your experiments. For example, a chemistry project might involve running a reaction and measuring the yield of a chemical that you make. The description would include how the chemical reaction will be run in special glassware and how the work up will isolate the product. You would also describe how the yield will be measured, such as weighing the resultant product on a balance. At the end of this section of the research plan, the reader should understand the general work flow of your experiments and how they will be run.

The Facilities Where the Work Will be Done Describe where the experiments will be done. Your home? Your school? A special laboratory? Give enough detail for the reader to understand where you will work on your science project.

How the Research Plan Might Change A research plan is just that, a plan! Plans don’t always proceed exactly as you envisioned them. If you have thought about changes that might need to be made as you are running your experiments, mention them here. This will indicate that you have thought about your work in great depth and are prepared to adjust accordingly.

Summary For this section, provide a general summary of your research plan. Tell the reader what you hope to accomplish and how you will do it.

Bibliography

Provide at least five major references that relate to the project.  This helps reviewers to understand better the depth of research that has been done in preparation for doing the research project.

2024 Fair results!

What a great fair!  The 2024 NHSEE fair was held on March 14, and we’re already looking forward to the 2025 fair – we hope you are too.

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Writing a Research Strategy

This page is focused on providing practical tips and suggestions for preparing The Research Strategy, the primary component of an application's Research Plan along with the Specific Aims. The guidance on this page is primarily geared towards an R01-style application, however, much of it is useful for other grant types as well.

Developing the Research Strategy

The primary audience for your application is your peer review group. When writing your Research Strategy, your goal is to present a well-organized, visually appealing, and readable description of your proposed project and the rationale for pursuing it. Your writing should be streamlined and organized so your reviewers can readily grasp the information. If it's a key point, repeat it, then repeat it again. Add more emphasis by putting the text in bold , or bold italics . If writing is not your forte, get help.  For more information, please visit  W riting For Reviewers .

How to Organize the Research Strategy Section

How to organize a Research Strategy is largely up to the applicant. Start by following the NIH application instructions and guidelines for formatting attachments such as the research plan section.

It is generally structured as follows:

Significance

For  Preliminary Studies (for new applications) or a Progress Report (for renewal and revision applications).

• You can either include preliminary studies or progress report information as a subsection of Approach or integrate it into any or all of the three main sections.
• If you do the latter, be sure to mark the information clearly, for example, with a bold subhead.

 Helpful tips to consider when formatting:

• Organize using bold headers or an outline or numbering system—or both—that are used consistently throughout.
• Start each section with the appropriate header: Significance, Innovation, or Approach.
• Organize the Approach section around the Specific Aims.

For most applications, you need to address Rigor ous Study Design  by describing the experimental design and methods you propose and how they will achieve robust and unbiased results. See the NIH guidance for elaboration on the 4 major areas of rigor and transparency emphasized in grant review.  These requirements apply to research grant, career development, fellowship, and training applications.

Tips for Drafting Sections of the Research Strategy

Although you will emphasize your project's significance throughout the application, the Significance section should give the most details. The farther removed your reviewers are from your field, the more information you'll need to provide on basic biology, importance of the area, research opportunities, and new findings. Reviewing the potentially relevant study section rosters may give you some ideas as to general reviewer expertise. You will also need to describe the prior and preliminary studies that provide a strong scientific rationale for pursuing the proposed studies, emphasizing the strengths and weaknesses in the rigor and transparency of these key studies.

This section gives you the chance to explain how your application is conceptually and/or technically innovative. Some examples as to how you might do this could include but not limited to:

• Demonstrate the proposed research is new and unique, e.g., explores new scientific avenues, has a novel hypothesis, will create new knowledge.
• Explain how the proposed work can refine, improve, or propose a new application of an existing concept or method.

If your proposal is paradigm-shifting or challenges commonly held beliefs, be sure that you include sufficient evidence in your preliminary data to convince reviewers, including strong rationale, data supporting the approach, and clear feasibility. Your job is to make the reviewers feel confident that the risk is worth taking.

For projects predominantly focused on innovation and outside-the-box research, investigators may wish to consider mechanisms other than R01s for example (e.g., exploratory/developmental research (R21) grants, NIH Director's Pioneer Award Program (DP1), and NIH Director's New Innovator Award Program (DP2).

The Approach section is where the experimental design is described. Expect your assigned reviewers to scrutinize your approach: they will want to know what you plan to do, how you plan to do it, and whether you can do it. NIH data show that of the peer review criteria, approach has the highest correlation with the overall impact score. Importantly, elements of rigorous study design should be addressed in this section, such as plans for minimization of bias (e.g. methods for blinding and treatment randomization) and consideration of relevant biological variables. Likewise, be sure to lay out a plan for alternative experiments and approaches in case you get uninterpretable or surprising results, and also consider limitations of the study and alternative interpretations. Point out any procedures, situations, or materials that may be hazardous to personnel and precautions to be exercised. A full discussion on the use of select agents should appear in the Select Agent Research attachment.  Consider including a timeline demonstrating anticipated completion of the Aims. 

Here are some pointers to consider when organizing your Approach section:

• Enter a bold header for each Specific Aim.
• Under each aim, describe the experiments.
• If you get result X, you will follow pathway X; if you get result Y, you will follow pathway Y.
• Consider illustrating this with a flowchart.

Preliminary Studies

If submitting a new application to a NOFO that allows preliminary data, it is strongly encouraged to include preliminary studies.  Preliminary studies demonstrate competency in the methods and interpretation. Well-designed and robust preliminary studies also serve to provide a strong scientific rationale for the proposed follow-up experiments. Reviewers also use preliminary studies together with the biosketches to assess the investigator review criterion, which reflects the competence of the research team. Provide alternative interpretations to your data to show reviewers you've thought through problems in-depth and are prepared to meet future challenges. As noted above, preliminary data can be put anywhere in the Research Strategy, but just make sure reviewers will be able to distinguish it from the proposed studies. Alternatively, it can be a separate section with its own header.

Progress Reports

If applying for a renewal or a revision (a competing supplement to an existing grant), include a progress report for reviewers.

Create a header so reviewers can easily find it and include the following information:

• Project period beginning and end dates.
• Summary of the importance and robustness of the completed findings in relation to the Specific Aims.
• Account of published and unpublished results, highlighting progress toward achieving your Specific Aims.

Other Helpful Tips

Referencing publications.

References show breadth of knowledge of the field and provide a scientific foundation for your application. If a critical work is omitted, reviewers may assume the applicant is not aware of it or deliberately ignoring it.

Throughout the application, reference all relevant publications for the concepts underlying your research and your methods. Remember the strengths and weaknesses in the rigor of the key studies you cite for justifying your proposal will need to be discussed in the Significance and/or Approach sections.

Read more about Bibliography and References Cited at Additional Application Elements .

Graphics can illustrate complex information in a small space and add visual interest to your application. Including schematics, tables, illustrations, graphs, and other types of graphics can enhance applications. Consider adding a timetable or flowchart to illustrate your experimental plan, including decision trees with alternative experimental pathways to help your reviewers understand your plans.

Video may enhance your application beyond what graphics alone can achieve. If you plan to send one or more videos, you'll need to meet certain requirements and include key information in your Research Strategy. State in your cover letter that a video will be included in your application (don't attach your files to the application). After you apply and get assignment information from the Commons, ask your assigned Scientific Review Officer (SRO) how your business official should send the files. Your video files are due at least one month before the peer review meeting.

However, you can't count on all reviewers being able to see or hear video, so you'll want to be strategic in how you incorporate it into your application by taking the following steps:

• Caption any narration in the video.
• Include key images from the video
• Write a description of the video, so the text would make sense even without the video.

Tracking for Your Budget

As you design your experiments, keep a running tab of the following essential data:

• Who. A list of people who will help (for the Key Personnel section later).
• What. A list of equipment and supplies for the experiments
• Time. Notes on how long each step takes. Timing directly affects the budget as well as how many Specific Aims can realistically be achieved.

Jotting this information down will help when Creating a Budget  and complete other sections later.

Review and Finalize Your Research Plan

Critically review the research plan through the lens of a reviewer to identify potential questions or weak spots.

Enlist others to review your application with a fresh eye. Include people who aren't familiar with the research to make sure the proposed work is clear to someone outside the field.

When finalizing the details of the Research Strategy, revisit and revise the Specific Aims as needed. Please see Writing Specific Aims . 

comments Want to contact NINDS staff? Please visit our Find Your NINDS Program Officer page to learn more about contacting Program Officer, Grants Management Specialists, Scientific Review Officers, and Health Program Specialists.

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Research Design | Step-by-Step Guide with Examples

Published on 5 May 2022 by Shona McCombes . Revised on 20 March 2023.

A research design is a strategy for answering your research question  using empirical data. Creating a research design means making decisions about:

• Your overall aims and approach
• The type of research design you’ll use
• Your sampling methods or criteria for selecting subjects
• Your data collection methods
• The procedures you’ll follow to collect data
• Your data analysis methods

A well-planned research design helps ensure that your methods match your research aims and that you use the right kind of analysis for your data.

Table of contents

Step 1: consider your aims and approach, step 2: choose a type of research design, step 3: identify your population and sampling method, step 4: choose your data collection methods, step 5: plan your data collection procedures, step 6: decide on your data analysis strategies, frequently asked questions.

• Introduction

Before you can start designing your research, you should already have a clear idea of the research question you want to investigate.

There are many different ways you could go about answering this question. Your research design choices should be driven by your aims and priorities – start by thinking carefully about what you want to achieve.

The first choice you need to make is whether you’ll take a qualitative or quantitative approach.

Qualitative research designs tend to be more flexible and inductive , allowing you to adjust your approach based on what you find throughout the research process.

Quantitative research designs tend to be more fixed and deductive , with variables and hypotheses clearly defined in advance of data collection.

It’s also possible to use a mixed methods design that integrates aspects of both approaches. By combining qualitative and quantitative insights, you can gain a more complete picture of the problem you’re studying and strengthen the credibility of your conclusions.

Practical and ethical considerations when designing research

As well as scientific considerations, you need to think practically when designing your research. If your research involves people or animals, you also need to consider research ethics .

• How much time do you have to collect data and write up the research?
• Will you be able to gain access to the data you need (e.g., by travelling to a specific location or contacting specific people)?
• Do you have the necessary research skills (e.g., statistical analysis or interview techniques)?
• Will you need ethical approval ?

At each stage of the research design process, make sure that your choices are practically feasible.

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Within both qualitative and quantitative approaches, there are several types of research design to choose from. Each type provides a framework for the overall shape of your research.

Types of quantitative research designs

Quantitative designs can be split into four main types. Experimental and   quasi-experimental designs allow you to test cause-and-effect relationships, while descriptive and correlational designs allow you to measure variables and describe relationships between them.

With descriptive and correlational designs, you can get a clear picture of characteristics, trends, and relationships as they exist in the real world. However, you can’t draw conclusions about cause and effect (because correlation doesn’t imply causation ).

Experiments are the strongest way to test cause-and-effect relationships without the risk of other variables influencing the results. However, their controlled conditions may not always reflect how things work in the real world. They’re often also more difficult and expensive to implement.

Types of qualitative research designs

Qualitative designs are less strictly defined. This approach is about gaining a rich, detailed understanding of a specific context or phenomenon, and you can often be more creative and flexible in designing your research.

The table below shows some common types of qualitative design. They often have similar approaches in terms of data collection, but focus on different aspects when analysing the data.

Your research design should clearly define who or what your research will focus on, and how you’ll go about choosing your participants or subjects.

In research, a population is the entire group that you want to draw conclusions about, while a sample is the smaller group of individuals you’ll actually collect data from.

Defining the population

A population can be made up of anything you want to study – plants, animals, organisations, texts, countries, etc. In the social sciences, it most often refers to a group of people.

For example, will you focus on people from a specific demographic, region, or background? Are you interested in people with a certain job or medical condition, or users of a particular product?

The more precisely you define your population, the easier it will be to gather a representative sample.

Sampling methods

Even with a narrowly defined population, it’s rarely possible to collect data from every individual. Instead, you’ll collect data from a sample.

To select a sample, there are two main approaches: probability sampling and non-probability sampling . The sampling method you use affects how confidently you can generalise your results to the population as a whole.

Probability sampling is the most statistically valid option, but it’s often difficult to achieve unless you’re dealing with a very small and accessible population.

For practical reasons, many studies use non-probability sampling, but it’s important to be aware of the limitations and carefully consider potential biases. You should always make an effort to gather a sample that’s as representative as possible of the population.

Case selection in qualitative research

In some types of qualitative designs, sampling may not be relevant.

For example, in an ethnography or a case study, your aim is to deeply understand a specific context, not to generalise to a population. Instead of sampling, you may simply aim to collect as much data as possible about the context you are studying.

In these types of design, you still have to carefully consider your choice of case or community. You should have a clear rationale for why this particular case is suitable for answering your research question.

For example, you might choose a case study that reveals an unusual or neglected aspect of your research problem, or you might choose several very similar or very different cases in order to compare them.

Data collection methods are ways of directly measuring variables and gathering information. They allow you to gain first-hand knowledge and original insights into your research problem.

You can choose just one data collection method, or use several methods in the same study.

Survey methods

Surveys allow you to collect data about opinions, behaviours, experiences, and characteristics by asking people directly. There are two main survey methods to choose from: questionnaires and interviews.

Observation methods

Observations allow you to collect data unobtrusively, observing characteristics, behaviours, or social interactions without relying on self-reporting.

Observations may be conducted in real time, taking notes as you observe, or you might make audiovisual recordings for later analysis. They can be qualitative or quantitative.

Other methods of data collection

There are many other ways you might collect data depending on your field and topic.

If you’re not sure which methods will work best for your research design, try reading some papers in your field to see what data collection methods they used.

Secondary data

If you don’t have the time or resources to collect data from the population you’re interested in, you can also choose to use secondary data that other researchers already collected – for example, datasets from government surveys or previous studies on your topic.

With this raw data, you can do your own analysis to answer new research questions that weren’t addressed by the original study.

Using secondary data can expand the scope of your research, as you may be able to access much larger and more varied samples than you could collect yourself.

However, it also means you don’t have any control over which variables to measure or how to measure them, so the conclusions you can draw may be limited.

As well as deciding on your methods, you need to plan exactly how you’ll use these methods to collect data that’s consistent, accurate, and unbiased.

Planning systematic procedures is especially important in quantitative research, where you need to precisely define your variables and ensure your measurements are reliable and valid.

Operationalisation

Some variables, like height or age, are easily measured. But often you’ll be dealing with more abstract concepts, like satisfaction, anxiety, or competence. Operationalisation means turning these fuzzy ideas into measurable indicators.

If you’re using observations , which events or actions will you count?

If you’re using surveys , which questions will you ask and what range of responses will be offered?

You may also choose to use or adapt existing materials designed to measure the concept you’re interested in – for example, questionnaires or inventories whose reliability and validity has already been established.

Reliability and validity

Reliability means your results can be consistently reproduced , while validity means that you’re actually measuring the concept you’re interested in.

For valid and reliable results, your measurement materials should be thoroughly researched and carefully designed. Plan your procedures to make sure you carry out the same steps in the same way for each participant.

If you’re developing a new questionnaire or other instrument to measure a specific concept, running a pilot study allows you to check its validity and reliability in advance.

Sampling procedures

As well as choosing an appropriate sampling method, you need a concrete plan for how you’ll actually contact and recruit your selected sample.

That means making decisions about things like:

• How many participants do you need for an adequate sample size?
• What inclusion and exclusion criteria will you use to identify eligible participants?
• How will you contact your sample – by mail, online, by phone, or in person?

If you’re using a probability sampling method, it’s important that everyone who is randomly selected actually participates in the study. How will you ensure a high response rate?

If you’re using a non-probability method, how will you avoid bias and ensure a representative sample?

Data management

It’s also important to create a data management plan for organising and storing your data.

Will you need to transcribe interviews or perform data entry for observations? You should anonymise and safeguard any sensitive data, and make sure it’s backed up regularly.

Keeping your data well organised will save time when it comes to analysing them. It can also help other researchers validate and add to your findings.

On their own, raw data can’t answer your research question. The last step of designing your research is planning how you’ll analyse the data.

Quantitative data analysis

In quantitative research, you’ll most likely use some form of statistical analysis . With statistics, you can summarise your sample data, make estimates, and test hypotheses.

Using descriptive statistics , you can summarise your sample data in terms of:

• The distribution of the data (e.g., the frequency of each score on a test)
• The central tendency of the data (e.g., the mean to describe the average score)
• The variability of the data (e.g., the standard deviation to describe how spread out the scores are)

The specific calculations you can do depend on the level of measurement of your variables.

Using inferential statistics , you can:

• Make estimates about the population based on your sample data.
• Test hypotheses about a relationship between variables.

Regression and correlation tests look for associations between two or more variables, while comparison tests (such as t tests and ANOVAs ) look for differences in the outcomes of different groups.

Your choice of statistical test depends on various aspects of your research design, including the types of variables you’re dealing with and the distribution of your data.

Qualitative data analysis

In qualitative research, your data will usually be very dense with information and ideas. Instead of summing it up in numbers, you’ll need to comb through the data in detail, interpret its meanings, identify patterns, and extract the parts that are most relevant to your research question.

Two of the most common approaches to doing this are thematic analysis and discourse analysis .

There are many other ways of analysing qualitative data depending on the aims of your research. To get a sense of potential approaches, try reading some qualitative research papers in your field.

A sample is a subset of individuals from a larger population. Sampling means selecting the group that you will actually collect data from in your research.

For example, if you are researching the opinions of students in your university, you could survey a sample of 100 students.

Statistical sampling allows you to test a hypothesis about the characteristics of a population. There are various sampling methods you can use to ensure that your sample is representative of the population as a whole.

Operationalisation means turning abstract conceptual ideas into measurable observations.

For example, the concept of social anxiety isn’t directly observable, but it can be operationally defined in terms of self-rating scores, behavioural avoidance of crowded places, or physical anxiety symptoms in social situations.

Before collecting data , it’s important to consider how you will operationalise the variables that you want to measure.

The research methods you use depend on the type of data you need to answer your research question .

• If you want to measure something or test a hypothesis , use quantitative methods . If you want to explore ideas, thoughts, and meanings, use qualitative methods .
• If you want to analyse a large amount of readily available data, use secondary data. If you want data specific to your purposes with control over how they are generated, collect primary data.
• If you want to establish cause-and-effect relationships between variables , use experimental methods. If you want to understand the characteristics of a research subject, use descriptive methods.

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Driving Discovery: How to Create an Effective Research Plan

September 23, 2023 - 10 min read

When embarking on a research project , having a well-thought-out research plan is crucial to driving discovery and achieving your objectives. In this article, we will explore the importance of a research plan, the key benefits it offers, the essential components of an effective research plan, the steps to create one, and tips for implementing it successfully.

Understanding the Importance of a Research Plan

A research plan serves as a roadmap that guides your investigation and ensures that you stay focused and on track. It outlines the objectives, questions, and methods that will shape your research and enable you to make meaningful discoveries.

Imagine embarking on a research journey without a plan. You would be wandering aimlessly, unsure of where to focus your attention and resources. A research plan acts as a compass, guiding you towards the most promising avenues of exploration. It helps you formulate research questions that are relevant and meaningful, so that your study contributes to the existing body of knowledge in a significant way.

Key Benefits

A well-structured research plan offers several benefits besides guiding your investigation.

• Clarify your research goals and align them with your overarching research objectives. You want your study to remain focused and avoid unnecessary detours.
• Organize your research process, so that you cover all the necessary steps and avoid potential pitfalls. Break down your research into manageable tasks, allowing you to allocate your time and resources effectively. 
• Secure funding and gain the support of stakeholders. When applying for grants or seeking approval for your research project, a comprehensive and compelling research plan can make all the difference. It provides a clear overview of your study's objectives, methods, and expected outcomes, demonstrating the potential impact of your research.

Essential Components 

When creating a research plan, certain components should be included to ensure its effectiveness. These components serve as building blocks that shape the overall structure and content of your plan.

Defining Your Research Objectives

The first step in creating an effective research plan is to clearly define your research objectives. These objectives should be specific, measurable, attainable, relevant, and time-bound (SMART). By setting SMART research objectives, you provide a clear purpose for your investigation and establish criteria by which you can evaluate its success.

Defining research objectives is crucial because it helps researchers stay focused and avoid getting lost in the vast sea of information. It provides a sense of direction and purpose, so that every step taken during the research process contributes to achieving the desired outcomes. Without well-defined objectives, researchers may find themselves overwhelmed and unable to make meaningful progress.

Identifying Your Research Questions

In addition to defining your research objectives, it is crucial to identify the research questions that will guide your investigation. These should be focused and address the specific aspects you aim to explore. By formulating precise research questions, you narrow down your research scope and provide a framework for gathering and analyzing data.

Remember that research questions serve as a compass, guiding researchers through the vast landscape of information. They help researchers stay on track and ensure that their efforts are aligned with the overall objectives of the study. Well-crafted research questions also enable them to delve deeper into specific areas of interest, uncovering valuable insights that contribute to the existing body of knowledge.

Choosing the Right Research Methodology

The selection of an appropriate research methodology is another vital component of an effective research plan. The methodology you choose should be aligned with your research objectives and questions, enabling you to gather and analyze data effectively. Whether quantitative or qualitative, your chosen methodology should provide reliable and valid results that contribute to driving your research forward.

Choosing the right research methodology is like selecting the right tools for a construction project. Each methodology has its strengths and limitations, and understanding these nuances is crucial for conducting a successful study. The decision that researchers make will impact the data collection techniques, analysis methods, and overall validity of the study.

Steps to Create a Comprehensive Research Plan

Now that we understand the essential components of a research plan, let's dive into the steps to create a comprehensive one.

Setting Your Research Goals

The first step in creating a research plan is to set clear and concise research goals. These goals serve as the guiding principles of the research and provide a framework for the investigation. When setting research goals, align them with the research objectives, so that the plan remains focused and purposeful. 

Don't forget that research goals can vary depending on the nature of the study. They can be broad, encompassing the overall aims of the research, or specific, focusing on particular aspects or variables. Regardless of their scope, research goals play a vital role in shaping the research plan and determining the path to be followed.

Conducting a Literature Review

A comprehensive literature review is crucial for building a solid foundation for your research plan. During this process, researchers explore various sources such as academic journals, books, conference proceedings, and online databases to gather relevant information. They critically analyze and synthesize the findings from previous studies, to identify gaps, inconsistencies, and areas that require further investigation. This process helps researchers refine their research questions, develop hypotheses, and select appropriate research methods.

Moreover, a literature review allows researchers to identify key theories, concepts, and methodologies that are relevant to their research. It helps them establish the theoretical framework for their study, providing a solid basis for data collection and analysis. By conducting a thorough literature review, researchers guarantee that their research plan is grounded in existing knowledge and contributes meaningfully to the field.

Designing Your Research Strategy

Once you have set your research goals and conducted a thorough literature review, it's time to design your research strategy. This step involves making important decisions regarding research questions, research methods, and data collection and analysis procedures.

• Carefully consider various factors, such as the research goals, the nature of the research problem, the available resources, and ethical considerations. Determine the most appropriate research questions that align with the research goals and can be effectively addressed through the chosen research methods.
• Select the most suitable research methods to collect and analyze data. This can involve qualitative methods such as interviews, observations, or focus groups, or quantitative methods such as surveys or experiments. The choice of research methods depends on the research objectives, the nature of the research problem, and the available resources.
• Outline the data collection and analysis procedures. This means determining the sample size, developing data collection instruments, and devising data analysis techniques. A well-designed research strategy ensures that researchers gather the necessary data to address their research questions effectively and draw meaningful conclusions.

Tips for Implementing Your Research Plan

Creating a research plan is just the first step; successful implementation is equally important. Here are some tips to help you implement your research plan effectively.

Ensuring Flexibility 

While a research plan provides a structured roadmap, it is essential to remain flexible throughout the research process. Unexpected challenges and discoveries may require adjustments to your plan. By maintaining flexibility, you can adapt to changing circumstances and make the most of unforeseen opportunities.

Imagine you are conducting a research study on the impact of climate change on coral reefs. Your initial plan may involve collecting data from a specific location over a six-month period. However, during the course of your research, you may discover a new coral species that is particularly vulnerable to climate change. In such a scenario, being flexible allows you to modify your research plan to include a more in-depth investigation of this new species, potentially leading to groundbreaking findings.

Tracking Your Research Progress

Regularly tracking your research progress is crucial to ensuring that you stay on schedule and achieve your research objectives. Establish milestones and set aside dedicated time for progress evaluation. This will help you identify any deviations from the plan and take corrective measures promptly.

Suppose you are conducting a longitudinal study on the effects of a new teaching method on student performance. By tracking your research progress, you can analyze the data collected at various intervals and assess whether the teaching method is consistently improving student outcomes. If you notice any inconsistencies or unexpected trends, you can adjust your research plan accordingly, such as modifying the teaching method or expanding the sample size.

Evaluating and Refining Your Research Plan

Periodically evaluating and refining your research plan is vital for its effectiveness. Reflect on the progress of your research and assess whether your objectives and questions are still relevant. Take feedback from colleagues and stakeholders into account and make necessary adjustments to improve your research plan.

Let's say you are conducting a survey-based research study on consumer preferences for sustainable packaging. After analyzing the initial survey responses, you may realize that the questions you asked did not capture all the relevant factors influencing consumer choices. By evaluating and refining your research plan, you can modify the survey questions to include additional variables, such as price sensitivity or brand perception, thus enhancing the validity and comprehensiveness of your study.

Drive Your Discovery with Wrike

Creating an effective research plan to drive discovery is like having a detailed itinerary for an exploration journey. It guides your research efforts and ensures that you uncover valuable insights. However, managing these research plans across multiple projects can be challenging.

This is where Wrike steps in. Within Wrike, you can easily create folders for each project or research plan. These folders can serve as a place where you can store research methods, data collection plans, and even your research findings. This structured approach brings direction and discovery to your research, much like a detailed itinerary guides an exploration journey.

And when it comes to the other documents and workflows your business needs — whether it's data analysis or report writing — Wrike has you covered with robust project management features and ready-to-use templates. Ready to drive your discovery process? Start your free trial of Wrike today.

Note: This article was created with the assistance of an AI engine. It has been reviewed and revised by our team of experts to ensure accuracy and quality.

Occasionally we write blog posts where multiple people contribute. Since our idea of having a gladiator arena where contributors would fight to the death to win total authorship wasn’t approved by HR, this was the compromise.

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In the world of manufacturing and production, efficiency is a key factor in achieving success. One essential aspect of efficient production is effective scheduling. By mastering production scheduling, businesses can streamline their operations, optimize resources, and meet customer demands in a timely manner. In this comprehensive guide, we will explore the basics of production scheduling, the key elements involved, and the steps to master this vital process. Additionally, we will discuss the role of technology, specifically production scheduling software, in enhancing efficiency and maximizing productivity.  Understanding the Basics of Production Scheduling Production scheduling is the process of creating a detailed plan that determines the sequence and timing of tasks, resources, and materials required to fulfill production orders. It takes into account factors such as demand forecasts, resource availability, and time constraints. Importance of Efficient Production Scheduling Efficient production scheduling is vital for several reasons. Makes sure that customer orders are fulfilled in a timely manner, enhancing customer satisfaction and loyalty. When production is well-scheduled, products are delivered on time, meeting customer expectations and building a positive reputation for the business. Enables businesses to make the most of their available resources, preventing over or underutilization. By carefully planning and optimizing the use of manpower, equipment, and materials, companies can maximize their productivity and minimize waste.  Minimizes production costs, optimizes inventory levels, and reduces lead times, resulting in improved profitability and competitiveness. By avoiding excessive inventory, companies can minimize storage costs and reduce the risk of obsolete or expired products. Moreover, shorter lead times enable businesses to respond quickly to changing market demands, gaining a competitive edge over their rivals.  Key Elements of Production Scheduling To effectively master production scheduling, several key elements must be taken into account. Let's explore these essential components: Demand Forecasting Accurate demand forecasting is crucial for production scheduling. By analyzing historical sales data, market trends, and customer feedback, businesses can estimate future demand levels. This information forms the basis for developing a production schedule that meets anticipated demand while avoiding overproduction or stockouts. For example, a clothing manufacturer may use data from previous years to predict the demand for different types of garments during different seasons. By considering factors such as changing fashion trends, consumer preferences, and economic conditions, they can make informed decisions about how much of each item to produce and when. Additionally, advancements in technology have made demand forecasting more accurate and efficient. Companies can now leverage sophisticated algorithms and machine learning techniques to analyze large volumes of data and identify patterns and trends. This enables them to make more precise predictions and adjust their production schedules accordingly. Resource Allocation Resource allocation involves assigning the necessary resources, such as labor, machinery, and raw materials, to each production task. This ensures that the right resources are available at the right time, minimizing downtime and maximizing productivity. When allocating resources, companies must consider various factors, such as the availability and skill level of their workforce, the capacity of their machinery, and the availability of raw materials. They must also take into account any potential bottlenecks or constraints that may impact the production process. For instance, a car manufacturer may need to allocate specific workers with specialized skills to perform certain tasks, such as welding or painting. They must also confirm that the necessary machinery and equipment are in good working condition and properly maintained to avoid any disruptions in the production schedule. Time Management Efficient time management plays a vital role in production scheduling. Time estimates for each task are essential for creating a realistic and achievable schedule. This includes considering factors such as setup time, processing time, and lead times for procuring materials. To effectively manage time, companies often use various techniques and tools. They may employ project management methodologies, such as the Critical Path Method (CPM) or the Program Evaluation and Review Technique (PERT), to analyze the sequence of tasks and identify the critical path that determines the project's overall duration. What's more, companies can leverage technology to streamline time management in production scheduling. They may use software systems that automate the scheduling process, allowing for real-time updates and adjustments. These systems can also provide visibility into the progress of each task, enabling managers to identify any potential delays or bottlenecks and take corrective actions. Steps to Master Production Scheduling Mastering production scheduling requires a systematic approach and adherence to certain steps. Let's explore each of these steps: Identifying the Production Needs The first step in production scheduling is to identify the production needs. This involves reviewing customer orders, sales forecasts, and inventory levels to determine the required production output. Remember to consider factors such as market demand, customer preferences, and production capacity. Additionally, involve key stakeholders such as sales teams, production managers, and supply chain experts in the process. This collaborative approach helps in gathering valuable insights and aligning production schedules with overall business objectives. Prioritizing Tasks Once the production needs are identified, it is essential to prioritize tasks based on various factors such as customer deadlines, order importance, and resource availability. This way, critical tasks will be completed on time and with the necessary resources. Prioritization plays a vital role in production scheduling as it helps in allocating resources effectively. By giving priority to high-value orders or time-sensitive projects, businesses can enhance customer satisfaction and maintain a competitive edge in the market. Moreover, effective task prioritization requires a deep understanding of the production process, resource capabilities, and potential bottlenecks. By considering these factors, businesses can make informed decisions and optimize their production schedules. Scheduling Resources After prioritizing tasks, the next step is to schedule the required resources. This includes assigning manpower, equipment, and materials to each task in a way that optimizes their utilization and minimizes idle time. Resource scheduling involves careful consideration of factors such as skill sets, availability, and capacity. By matching the right resources to each task, businesses can ensure efficient production processes and minimize the risk of delays or inefficiencies. In addition to human resources, technology also plays a crucial role in resource scheduling. Advanced production planning software and automation tools can help in optimizing resource allocation, reducing manual errors, and improving overall productivity. Monitoring and Adjusting the Schedule Production scheduling is an ongoing process that requires constant monitoring and adjustment. It is crucial to regularly review the schedule, track progress, and make necessary adjustments to accommodate unforeseen events or changes in demand. Monitoring the production schedule involves tracking key performance indicators (KPIs) such as production output, cycle time, and resource utilization. By analyzing these KPIs, businesses can identify areas for improvement, address bottlenecks, and optimize their production schedules. Additionally, flexibility is essential in production scheduling. Businesses should be prepared to adapt their schedules based on market dynamics, customer demands, or unexpected disruptions. This adaptability allows businesses to maintain operational efficiency and meet customer expectations even in challenging circumstances. Implementing Technology in Production Scheduling Advancements in technology have revolutionized production scheduling. The introduction of production scheduling software has simplified and enhanced the efficiency of this critical process. Role of Production Scheduling Software Production scheduling software provides businesses with comprehensive tools and features to streamline and automate the scheduling process. It enables real-time visibility into production activities, resource availability, and order status, allowing for better decision-making and effective coordination. With production scheduling software, businesses can easily create and manage production schedules, assign tasks to specific resources, and track progress in real-time. The software also provides notifications and alerts so that production activities are completed on time and according to plan. This level of visibility and control helps businesses optimize their resources, reduce downtime, and improve overall productivity. Benefits of Automated Scheduling Automated scheduling offers numerous benefits, including increased accuracy, reduced manual errors, and improved overall efficiency. It eliminates the need for manual calculations, reduces scheduling conflicts, and enables quick adjustments to accommodate changing priorities or production requirements. Overall, mastering production scheduling is a crucial aspect of running an efficient and successful manufacturing operation. Understanding the basics of production scheduling, incorporating key elements, and following a structured approach can help businesses optimize resources, meet customer demands, and achieve higher levels of productivity. By embracing technology, such as production scheduling software, businesses can further enhance efficiency and stay ahead in today's competitive marketplace. Master the art of production scheduling with Wrike's advanced scheduling tools. Sign up for a free trial today, enhance efficiency, optimize resource utilization, and maximize output. Note: This article was created with the assistance of an AI engine. It has been reviewed and revised by our team of experts to ensure accuracy and quality.

Key Sales Pipeline Metrics to Monitor for Business Success

Every business should strive to have a clear understanding of their sales pipeline metrics. These metrics provide valuable insights into the effectiveness of the sales process, allowing you to identify areas for improvement and drive business success. By monitoring key sales pipeline metrics, you can make data-driven decisions that ultimately lead to increased revenue and sustainable growth. Understanding the Importance of Sales Pipeline Metrics Sales pipeline metrics are quantitative measurements that track your sales activities and their corresponding outcomes. They provide a snapshot of your sales process, from lead generation to closing deals. These metrics can be categorized into various stages of the sales process, which include lead generation, sales activity, sales conversion, and revenue. Why Monitor Sales Pipeline Metrics? Monitoring sales pipeline metrics provides numerous benefits to your business: Identify Bottlenecks and Inefficiencies: Pinpoint areas where deals often get stuck or take longer to close. This allows you to address these bottlenecks and optimize your sales process. Forecasting Accuracy: Predict future sales with greater precision and plan your resources accordingly. Spotting Trends and Patterns: Identify trends and patterns in your sales process to adapt your strategies, replicate successful approaches, and avoid repeating ineffective practices. Align Sales and Marketing Efforts: Line up your sales and marketing efforts by flagging which marketing initiatives generate the highest-quality leads and result in the most closed deals. Continuous Improvement: Foster a culture of continuous improvement within your sales organization and motivate your sales team to do better every day. Now, let's delve deeper into each category of sales pipeline metrics to gain a more comprehensive understanding. Lead Generation Metrics Lead generation metrics provide insights into the effectiveness of your lead generation efforts. These metrics help you evaluate the quantity and quality of leads entering your pipeline, enabling you to assess the success of your marketing campaigns and lead nurturing strategies. Here are a few of them: Number of leads generated: Gauges the total number of leads generated within a specific time period. It helps you measure the effectiveness of your marketing initiatives and identify potential areas for improvement. Lead conversion rate: Measures the percentage of leads that convert into opportunities or move to the next stage of the sales process. It refers to the quality of your leads and the effectiveness of your lead nurturing efforts. Cost per lead: Calculates the average cost incurred to generate a single lead. It helps you evaluate the efficiency of your lead generation strategies and allocate resources effectively. Sales Activity Metrics Sales activity metrics focus on measuring the activities carried out by your sales team. These metrics provide insights into the productivity and effectiveness of your sales representatives, helping you identify areas for improvement and optimize their performance. Here are several of them: Number of calls made: Tracks the total number of calls made by your sales team. It assists you in assessing their level of activity and the effort put into prospecting and engaging with potential customers. Number of meetings scheduled: Measures the total number of meetings scheduled with prospects or existing customers. It indicates the level of engagement and the effectiveness of your sales team in moving leads through the pipeline. Number of presentations delivered: Calculates the total number of presentations delivered by your sales representatives. It aids you in evaluating their ability to effectively communicate your product or service value proposition. Sales Conversion Metrics Sales conversion metrics assess how well your leads progress through each stage of the sales process and ultimately convert into closed deals. These metrics provide insights into the effectiveness of your sales strategies, allowing you to identify areas for improvement and optimize your conversion rates. Here are some examples: Opportunity-to-win ratio: Measures the percentage of opportunities that convert into closed deals. It helps you evaluate the efficiency of your sales process and the ability of your sales team to successfully close deals. Time to close: Calculates the average time it takes for a lead to progress through the sales pipeline and convert into a closed deal. It assists you in flagging bottlenecks and optimizing your sales process to reduce the time-to-close. Win rate: Records the percentage of opportunities that result in closed deals. It aids you in assessing the effectiveness of your sales strategies and the ability of your sales team to win deals. Revenue Metrics Revenue metrics track the financial impact of your sales efforts. These metrics provide insights into the overall performance and profitability of your sales organization, helping you make data-driven decisions to maximize revenue. Here are a few key ones: Deal size: Measures the average value of closed deals. It helps you understand the revenue potential of each deal and optimize your pricing strategies. Average revenue per customer: Calculates the average revenue generated per customer. It lets you assess the profitability of your customer base and identify opportunities for upselling or cross-selling. Overall revenue generated: Tracks the total revenue generated by your sales team within a specific time period. It provides an overview of your sales performance so that you can evaluate the effectiveness of your sales strategies. Essential Sales Pipeline Metrics for Business Success Now that we understand the importance of sales pipeline metrics, let's explore some key metrics you should definitely monitor for business success: Lead Quantity and Quality The quantity of leads entering your pipeline is essential, but quality is equally important. Track the number of leads generated from various sources and assess their conversion rates. Identify patterns and characteristics that are common among your most valuable customers, as these can be useful in current and future marketing efforts. For example, you may find that leads generated from social media campaigns have a higher conversion rate compared to leads from email marketing. This insight allows you to invest more resources in social media campaigns and refine your email marketing strategy to improve its effectiveness. Sales Cycle Length The length of your sales cycle directly affects your revenue and cash flow. Measure the time it takes for a lead to move through each stage of the pipeline and convert into a paying customer. Identify areas where deals get delayed or stalled and take proactive measures to streamline the process. Remember to study the sales cycle length to predict revenue and manage your cash flow more effectively.  For instance, you may find that leads spend a significant amount of time in the negotiation stage, causing delays in closing deals. This insight prompts you to implement strategies to accelerate the negotiation process, such as providing clearer pricing options or offering additional incentives. Conversion Rates Conversion rates provide valuable insights into the effectiveness of your sales efforts. Monitor the percentage of leads that successfully convert into customers at each stage of the pipeline. Track conversion rates to evaluate your sales team's performance. For example, you may notice that a significant number of leads drop off during the product demonstration stage. This observation prompts you to analyze the effectiveness of your demonstrations and make improvements, such as enhancing the presentation or addressing common objections more effectively. Deal Size and Revenue Monitor the average deal size and overall revenue generated from your sales efforts. Identify which types of deals have the greatest impact on your bottom line and focus your resources accordingly. Analyze the return on investment (ROI) of your marketing and sales activities. If you find that a particular marketing campaign consistently generates a high revenue, you can allocate more resources to scale that campaign and maximize its impact. For example, you may find that deals with larger companies tend to have a higher average deal size. Armed with this information, you can allocate more resources to target larger companies and tailor your sales approach to meet their specific needs. Tools and Techniques for Monitoring Sales Pipeline Metrics Now that you understand the essential metrics to monitor, let's explore some tools and techniques that can help you effectively track and analyze your sales pipeline: CRM Systems  A Customer Relationship Management (CRM) system is a powerful tool that enables you to manage and track your sales pipeline metrics. CRM systems allow you to capture and analyze data related to leads, opportunities, and deals. They provide insights into each stage of the sales process and help you identify areas for improvement. By leveraging CRM systems, you can automate your sales workflow, streamline communication, and gain a holistic view of your sales pipeline. These systems provide real-time visibility into your sales performance, allowing you to make data-driven decisions and drive business success. Data Visualization Data visualization tools can help you transform complex data into intuitive visuals. By creating charts, graphs, and dashboards, you can easily interpret and communicate your sales pipeline metrics to stakeholders. Data visualization enables you to spot trends, identify patterns, and make informed decisions quickly and effectively. Regular Sales Pipeline Audits Conducting regular sales pipeline audits is crucial for maintaining the accuracy and integrity of your pipeline metrics. By thoroughly reviewing your pipeline, you can identify discrepancies, outdated information, and potential areas for improvement. Regular audits help verify that the data on which you base your decisions is reliable and up to date. How to Improve Your Sales Pipeline Metrics Monitoring your sales pipeline metrics is only the first step. To drive business success, you must continually improve these metrics and optimize your sales process. Here are some strategies to enhance your sales pipeline metrics: Enhancing Lead Generation Strategies Focusing on high-quality leads can significantly impact your sales pipeline metrics. Continuously review and refine your lead generation strategies to attract leads that are more likely to convert into customers. Consider leveraging data-driven marketing tactics, conducting thorough market research, and optimizing your website for lead generation. Streamlining the Sales Process Identify areas in your sales process that can be streamlined. Look for tasks that can be automated or eliminated to reduce the time it takes for leads to move through the pipeline. By removing unnecessary steps and improving efficiency, you can accelerate your sales cycle and increase conversion rates. Training and Development for Sales Teams Invest in training and development programs for your sales team to enhance their skills and knowledge. Provide them with the tools and resources they need to effectively engage with leads and close deals. By continually developing your sales team's capabilities, you can improve their performance and drive better sales pipeline metrics. Overall, monitoring key sales pipeline metrics is vital for your business's success. By understanding the importance of these metrics, utilizing the right tools and techniques, and implementing strategies to improve them, you can optimize your sales process, increase revenue, and achieve sustainable growth. Monitor key sales pipeline metrics using Wrike’s advanced analytical tools. Register for a free trial today and align your sales strategies with solid data for guaranteed business success. Note: This article was created with the assistance of an AI engine. It has been reviewed and revised by our team of experts to ensure accuracy and quality.

Catalyzing Business Growth: Strategies for Expansion

Expanding a business is an exciting and challenging endeavor. It requires careful planning, strategic thinking, and a deep understanding of the market. In this article, we will explore the key strategies for business expansion and how to catalyze growth effectively. Whether you are a small startup or an established company, these strategies will provide valuable insights into achieving your growth goals. Understanding Business Expansion Business expansion offers numerous benefits, such as increased market share, higher revenues, and improved brand recognition. It allows businesses to tap into new markets, gain a competitive edge, and attract a larger customer base. However, expanding without a well-thought-out plan can be risky and may lead to financial instability. Therefore, it is essential to carefully consider all aspects of expansion before embarking on this journey. The Importance of Business Growth Vital for long-term success and sustainability: Stay ahead of the competition, adapt to changing market trends, and take advantage of new opportunities. Attract potential investors and strategic partnerships.  Improves company culture: Boost employee morale and provide career advancement opportunities. Platform for innovation and creativity: With a larger customer base, you have the opportunity to gather valuable feedback and insights, enabling you to refine your products or services and meet the evolving needs of your target audience. Access to new markets and geographical locations: Diversify your customer base and reduce dependency on a single market. Establish a global presence and build a strong network of partners and suppliers, facilitating further growth and expansion. Key Factors in Business Expansion Several key factors play a crucial role in successful business expansion: Market Demand: Before expanding, assess the market demand for your products or services. Conduct market research and analyze customer preferences and buying patterns to confirm that there is a sustainable demand in the new market. Identify potential gaps in the market that your business can fill, offering unique value propositions to attract customers. Competitive Analysis: Understand the competitive landscape in the target market. Identify key competitors and analyze their strengths and weaknesses. This analysis will help you position your organization and differentiate it from the competition. Develop a compelling value proposition that highlights your unique selling points and conveys why customers should choose your business over others. Operational Capacity: Evaluate your operational capacity to handle expansion. Verify that you have the necessary infrastructure, resources, and systems in place to meet the increased demand without compromising product quality or customer service. Consider factors such as production capacity, supply chain management, and distribution channels. Implement scalable processes and invest in technology that can support your growth objectives. Financial Planning: Expansion requires significant financial resources. Develop a comprehensive financial plan that includes projected revenues, expenses, and cash flow forecasts. Assess your funding options, such as internal sources (retained earnings) or external sources (loans, investments). Consider the potential risks and uncertainties associated with expansion and have contingency plans in place to mitigate them. Talent Acquisition and Development: Expanding your business may require additional workforce. Evaluate your current talent pool and identify any skill gaps that need to be filled. Develop a recruitment strategy to attract and hire qualified individuals who align with your company's values and objectives. Additionally, invest in training and development programs to upskill existing employees and ensure they are equipped to handle new responsibilities and challenges. Formulating a Strategic Plan for Growth Expanding a business requires careful planning and consideration of various factors. In order to oversee a smooth and successful expansion, it is important to set clear business objectives and conduct a thorough analysis of the internal and external environment. Setting Clear Business Objectives Clearly define your business objectives for expansion. Are you aiming to penetrate a new market, launch new products, or expand geographically? Remember to consider the current market conditions, customer demands, and competitive landscape. Conducting a SWOT Analysis Identify internal strengths and weaknesses, as well as external opportunities and threats. This analysis will help you capitalize on your strengths, address weaknesses, seize opportunities, and mitigate potential risks. Remember to involve key stakeholders from different departments within your organization, for a holistic view of your business and access to diverse perspectives.  During the analysis, consider your company's strengths, such as a strong brand reputation, talented workforce, or innovative products. These strengths can be leveraged to gain a competitive advantage in the new market or industry segment you are targeting. Identifying weaknesses is equally important, as it allows you to address any internal limitations that may hinder your expansion efforts. This could include areas such as outdated technology, lack of skilled personnel, or inefficient processes.  Opportunities and threats in the external environment should also be carefully evaluated. This could include emerging market trends, changes in consumer behavior, or new technological advancements. Similarly, by recognizing potential threats, such as increased competition or economic downturns, you can develop strategies to mitigate their impact. Financial Considerations for Business Expansion Expanding a business requires sound financial planning to guarantee long-term viability and success. Consider the following financial aspects when formulating your expansion strategy: Budgeting for Growth Develop a detailed budget that accounts for all expansion-related expenses, such as marketing campaigns, additional staff recruitment and training, infrastructure investments, and increased operational costs. Verify that your projected revenue growth aligns with your planned expenses. When creating your budget, consider both short-term and long-term financial goals. Short-term goals may include immediate expenses related to the expansion, while long-term goals may involve planning for future growth and sustainability. Additionally, factor in potential risks and uncertainties that may impact your financial projections. Conducting a thorough risk assessment can help you identify and mitigate potential financial challenges, so that your budget remains realistic and achievable. Exploring Financing Options Consider various financing options to fund your expansion. These may include bank loans, venture capital, crowdfunding, or seeking partnerships with strategic investors. Carefully evaluate the pros and cons of each option to determine the most suitable financing strategy for your business. When exploring financing options, assess your business's current financial health and creditworthiness. Lenders and investors will evaluate your financial statements, credit history, and cash flow to determine the level of risk associated with providing funds. Furthermore, seek professional advice from financial experts, such as accountants or financial advisors, who can guide you through the process and help you make informed decisions. They can assist in analyzing the financial implications of different financing options and provide recommendations based on your specific business needs. Remember that securing financing for expansion is not just about obtaining the necessary funds; it also involves understanding the terms and conditions associated with each financing option. Consider factors such as interest rates, repayment terms, collateral requirements, and potential impact on your business's ownership and control. Lastly, maintaining open communication with potential lenders or investors is crucial. Clearly articulate your expansion plans, demonstrate your business's growth potential, and provide a comprehensive financial proposal that highlights the expected return on investment. Building trust and credibility with financial stakeholders can increase your chances of securing the necessary funds for your business expansion. Human Resources and Business Growth Efficiently managing human resources is crucial during business expansion, as shown by the factors below. Staffing for Expansion Assessing the current workforce is not only about identifying the need for additional staff members, but also about evaluating the existing employees' potential for growth and development. By recognizing the talent within the organization, businesses can provide opportunities for internal promotions and career advancement. This not only motivates employees but also fosters loyalty and commitment to the company. When hiring new employees, take into account diversity and inclusion. By creating a diverse workforce, businesses can benefit from a wide range of perspectives, experiences, and ideas. This can lead to increased innovation, creativity, and problem-solving capabilities, which are essential for business growth. Training and Development for Growth Investing in training and development programs is crucial to making sure that employees have the necessary skills and knowledge to support the expanded operations. By providing continuous learning opportunities, businesses can enhance the capabilities of their workforce, leading to higher productivity and better customer service. Training programs can include a variety of methods, such as workshops, seminars, online courses, and on-the-job training. These initiatives can focus on developing technical skills, leadership abilities, communication skills, and other competencies that are essential for business growth. Moreover, businesses can also consider partnering with external training providers or educational institutions to offer specialized programs tailored to their specific industry or market. By providing employees with access to industry-leading training, businesses can stay ahead of the competition and see to it that their workforce remains up-to-date with the latest trends and best practices. Marketing Strategies for Business Expansion Effective marketing strategies are essential for creating brand awareness and driving customer acquisition during business expansion. Branding and Expansion Review and refine your brand strategy to align with the expanded market and target audience. Confirm that your brand positioning, messaging, and visual identity convey the unique value proposition of your business in a way that resonates with the new market. Digital Marketing for Growth Leverage the power of digital marketing channels to reach your target audience and generate leads. Invest in search engine optimization (SEO), social media marketing, content marketing, and targeted online advertising to expand your reach and drive traffic to your website or physical location. Catalyze Your Business Growth with Wrike Business growth requires effective strategies and the right tools. With Wrike, you can easily manage your growth strategies. Wrike allows you to create individual folders for each growth initiative, serving as a central hub for all relevant information and updates, fostering effective growth management. Beyond just growth management, Wrike offers a comprehensive suite of tools designed to streamline your workflows, foster collaboration, and drive productivity. From real-time communication to intuitive task management features, Wrike provides everything you need to catalyze your business growth and drive expansion. Ready to catalyze your business growth and drive expansion? There's no better time to start than now. Get started with Wrike for free today. Note: This article was created with the assistance of an AI engine. It has been reviewed and revised by our team of experts to ensure accuracy and quality.

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10 Free Research Plan Templates for Teams and Professionals

February 13, 2024

Starting a new research project from scratch can feel overwhelming. Without the right tools and templates, you’re left with a blank page and no direction. With them, starting a new project or organizing an existing one feels like a breeze.

That’s why you need to build a library of the best research plan templates. And we’re here to help you do it.

Stick with us as we run through the benefits of using a research plan template and share some of our favorites—all designed to help make your research projects run like magic.

What is a Research Plan Template?

What makes a good research plan template, 1. clickup user research plan template, 2. clickup market research template, 3. clickup research whiteboard template, 4. clickup equity research report template, 5. clickup seo research & management template, 6. clickup research report template, 7. clickup data analysis findings template, 8. clickup personal swot analysis template, 9. clickup case study template, 10. clickup investigation report template, how to write a research plan.

A research plan template is a document that’s designed to help you build the best research management plan possible. Instead of starting from scratch with a blank screen, a research plan document gives you the building blocks to fill in—so you won’t miss anything important.

There are a lot of solid research plan documents out there—covering everything from UX research (user experience) to case study templates . These templates can be helpful for any team, whether you’re working on product development prototypes or research objectives for a marketing project. They’re especially helpful for product design , UX research, and project management teams.

Some of the most popular research plan templates include:

• UX research plan templates
• Usability testing research templates
• Data analysis findings templates
• Project proposal templates
• Case study templates
• Research process templates
• Market research templates
• Competitive analysis templates
• Request for proposal templates

Each is there to guide you towards collecting, reviewing, and reporting on your research in a more strategic and organized way. Think of the research plan as your helpful research buddy—there to make things easier, provide guidance, and help you ace your project execution .

We’re all looking for something different when it comes to project templates. You might favor simplicity and order, while another team might prefer a more creative approach with lots of color and prompts.

Even though your needs are unique, there are some elements that almost always make a research plan template stand out above all the rest.

The best research plan templates:

• Keep you and your product team organized
• Help you standardize the research process and research method you use 
• Keep you focused on the key project goals and deliverables
• Give you suggestions for metrics to record and analyze
• Help you keep your research questions in one place
• Help you stay on target with your project timeline
• Give you a defined place to store your thoughts and research findings

There’s no one perfect template for any individual or team. Consider what your purpose or goal is, what your project management workstreams look like, and which areas you need the most support or guidance in. This will help you choose which templates to feature and how you can use wiki software to build a collection of your go-to templates.

10 Research Plan Templates to Use in 2024

There are hundreds of research plan templates out there, but they’re not all alike. Some of them bring out the best of your project management skills , while others hinder them.

We’ve brought together the best of the best, to share with you the ultimate list of research plan templates to add to your workflow this year. Want to know what’s even better? You don’t need to get buy-in for an expensive pricing plan—these templates are all free!

One of the first things that comes to mind when you say “research plan template” is user research. For development and project teams, this is one step of the process where strategy and staying organized is essential.

The User Research Plan Template by ClickUp makes it easy for you to achieve that and more. There’s space to share your project overview and research goals, research objectives, hypotheses, and more—plus a bonus Interview Research Debrief doc.

This template acts as a central resource for all the stakeholders. Use it to bring your team together, reaffirm your goals and objectives, and stay on track as you execute your qualitative research project.

Bonus: UX design tools !

Planning your market research is a must-have if you want to get the best possible data. Give your team everything they need in one place and it helps your process run smoothly.

To help keep your team informed and ready to go, we developed the Market Research Template by ClickUp . It’s a Task template that brings you key information, all in one place.

Our Market Research Template features five custom fields—a research presentation link, market research type, report document link, data collection technique, and research stage. Add your clickable links, and use the dropdowns to assign the correct stage or type as you progress.

You can collect user research in so many ways. Questionnaires, user interviews, focus groups, user research sessions, or social media. Another super engaging way to do this is with a whiteboard.

Collaboration and user research feels interactive and fun with the Research Whiteboard Template by ClickUp . Encourage your team to share the insights they’ve collected in this highly visual template, with digital sticky notes instead of empty white boxes.

Use this ClickUp whiteboard template as a more engaging way to view your user research. You can also use this as a tool for internal research projects—invite your stakeholders by link and ask them to comment directly.

If you’re in the business of advising investors on what to do with their money, an equity report is a must-have. Instead of manually writing a new report every time, a research plan template can help you shortcut the process and get straight to the details.

Enter the Equity Research Report Template by ClickUp . It’s designed to help you share what you know in a more strategic way. Share an insight into the company overview, management team, performance, market valuation, and recommendations.

This research plan template has everything you need to present your findings to investors in an organized and effective way. Look like a pro to your investor clients and partners, and store all your data in a meaningful way to reflect on later.

Staying on top of your company’s SEO performance is no easy task. There are so many moving parts, tools, projects, goals, and team members that you need a way to stay organized and productive.

Luckily for you, the SEO Research & Management Template by ClickUp is here to help simplify the process—and make you look good to your boss. This Folder template gives you a dedicated place to work on your SEO goals, with SEO-related custom fields and plenty of custom task types to help your team communicate progress and see roadblocks in your research plan.

Use this template to see at a glance where your SEO projects are, so you can be more proactive about how your team is working. You can also dive in to details and understand time estimates, publish dates, and where your rankings are at.

Check out these AI SEO Tools !

There’s no need to start from scratch every time you’re asked to put a research report together—instead use a template to make all your research questions and study reports as impressive as the last one.

Shortcut your way to success with the Research Report Template by ClickUp . There are sections for your executive summary, introduction, research method and techniques, results & discussion, references, and appendices. Add a report author and contributors, so you can recognize everyone that contributed to the report.

Share your research methods, approach, and findings with stakeholders and clients with this impressive template. It’s a useful foundation to help your team get organized and find a better way to update stakeholders on progress.

The Data Analysis Findings Template by ClickUp helps you present your data to everyone in a more meaningful way. Instead of presenting numbers and graphs, this template can help you go deeper into the problem statement, scope, analysis and research method, findings, and conclusion.

Use this template to help you organize your thoughts and communicate the results of your study in a transparent and easy-to-read way. Explain the context and background information alongside your approach, so your stakeholders can fully understand what the data shows.

A personal SWOT analysis can help you understand your (or your team’s) strengths, weaknesses, opportunities, and threats. This information can not only help you work better, but it means you can be more intentional about your impact on the wider company.

The Personal SWOT Analysis Template by ClickUp can help you remember to work on your SWOT analysis. Find your strengths, weaknesses or pain points, opportunities, and threats. This Task template features several custom fields designed to help you monitor your progress—including your objective, timeline, and completion rate.

This template can be a helpful reminder to focus on your personal SWOT analysis, so you can be more intentional and aware of how you contribute to your team and company’s goals and objectives. Use your personal SWOT to help you set professional goals for work and make a bigger impact.

Case studies give you a powerful insight into what your brands, clients, or competitors are doing. They’re an in-depth look into a specific area of the business, based on your personal research and findings.

Simplify the process of building your case studies with the Case Study Template by ClickUp . This template gives you a strong foundation for presenting clear, insightful case studies with your team, stakeholders, or clients. Introduce the company, your case study objective, solutions and statistics, and your insights.

Use this template to help you create case studies at scale. Present your data in a clear and concise way, with all the context your team or stakeholders need to extract the most value from the case study as possible.

Often our research helps us understand the market, our competitors, or what our own company is doing. Sometimes, it’s to help us understand incidents and challenges instead.

That’s where the Investigation Report Template by ClickUp comes in. This template is designed to help you report on accidents, complaints, incidents, and violations. Explain the case details including a summary and evidence, then move into cross-examination with space for interview questions and answers, and your conclusion.

This template is a must-have for teams and companies that want to demonstrate how they overcome challenges or handle incidents. It’s great for transparency and trust-building, and serves as a useful way to document a trail of evidence for when you need it.

Now that you have a template for your research plan, let’s dive into the details of how to write one. Follow these steps to create an effective research plan that will guide your research and help you achieve your goals.

Step 1: Identify Your Research Question

The first step in writing a research plan is to clearly define your research question or topic. This will serve as the foundation for all of your research and help guide your methods and analysis. Make sure your question is specific, relevant, and achievable within the scope of your project.

Step 2: Outline Your Objectives

Next, you should outline the specific objectives or goals of your research. These objectives should be aligned with your research question and provide a clear roadmap for your project. Be sure to make them measurable and achievable.

Step 3: Choose Your Research Methods

Based on your research question and objectives, you can now determine the appropriate methods for gathering data and conducting analysis. This may include surveys, experiments, interviews, or literature reviews. It’s important to choose methods that are suitable for your research topic and will provide reliable and accurate results.

Step 4: Create a Timeline

A research plan should include a detailed timeline for each stage of the project. This will help you stay on track and ensure that you have enough time to complete each task. Be realistic with your timeline and build in some buffer time for unexpected delays or challenges.

Step 5: Consider Ethical Implications

When conducting research, it’s important to consider any potential ethical implications. This may include obtaining consent from participants, ensuring privacy and confidentiality, or following ethical guidelines set by your institution or governing body.

Step 6: Anticipate Potential Outcomes

As with any research project, there are always potential outcomes that can arise. These could be both positive and negative, and it’s important to anticipate and plan for them. This will help you be prepared for any potential challenges or changes that may occur during your research.

Step 7: Revise and Refine Your Plan

Once you have completed the previous steps, it’s essential to review and revise your research plan as needed. It’s common for plans to change as the project progresses, so be open to making adjustments and tweaking your methods or timeline as needed.

Stay Organized with the Best Research Plan Templates

Nobody likes a disorganized project—especially a research project. Let your team breathe a sigh of relief and make your stakeholders smile when they realize you’ve got it all under control.

Use these free research plan templates to help you get organized, streamline your workflows, and keep everyone informed. Build a collection of templates that work for your projects, and make them a central part of the way you work as a team. Standardize, simplify, and get productive.

All of these research plan templates are available right now, for free, inside our template library . Get access to these user-friendly templates, 100MB of storage, 1,000+ integrations, and more with ClickUp—free now, and forever!

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Creating a 5-Year Research Plan

A 5-year academic research plan is a strategic roadmap that outlines an academic researcher's goals, objectives, and activities over a five-year period. This plan is crucial for several reasons, contributing to the overall success and impact of the researcher's work. Research plans cover key elements such as defining research interests, setting realistic goals, establishing a timeline, and incorporating effective strategies for publication and dissemination of research findings. They are designed to be created with your network of mentors, are adaptable and flexible and should be updated regularly as a way to measure your progress and impact.

Why create a 5-year Research Plan (from ChatGPT)

• Long-Term Vision and Focus:
• A 5-year research plan helps researchers establish a clear and comprehensive vision for their work over an extended period. It provides a framework for maintaining focus and direction amid the complexities of academic research.
• Goal Setting and Milestones:
• The plan allows researchers to set specific, measurable, achievable, relevant, and time-bound (SMART) goals. Breaking down the overarching research objectives into smaller milestones helps in tracking progress and maintaining motivation.
• Resource Allocation and Budgeting:
• Planning over a 5-year horizon enables researchers to allocate resources efficiently. This includes budgeting for funding, personnel, equipment, and other essential resources. Effective resource management enhances the chances of successfully completing projects.
• Grant Proposal Preparation:
• Many academic researchers rely on external funding for their projects. A well-thought-out 5-year research plan provides the foundation for compelling grant proposals. Funding agencies often require a detailed roadmap to evaluate the feasibility and potential impact of the proposed research.
• Collaboration and Networking:
• Long-term research plans often involve collaboration with other researchers, institutions, or industry partners. By outlining collaboration opportunities and networking strategies, researchers can enhance the impact of their work and foster mutually beneficial relationships.
• Publication Strategy:
• Planning for the dissemination of research findings is critical. A 5-year plan includes a publication strategy, outlining the intended journals, conferences, and other platforms for sharing research outcomes. This helps researchers build a publication record and contribute to the academic community.
• Career Development:
• For early-career researchers, a 5-year plan can serve as a roadmap for career development. It allows researchers to identify opportunities for professional growth, such as acquiring new skills, gaining teaching experience, or taking on leadership roles within academic or research institutions.
• Adaptability and Flexibility:
• While a plan provides structure, it should also allow for adaptability. Academic research is dynamic, and unforeseen challenges or opportunities may arise. A well-crafted plan includes mechanisms for adjusting goals and strategies in response to changing circumstances.
• Impact Assessment:
• The plan serves as a basis for assessing the impact of the research. By setting specific objectives and measurable outcomes, researchers can evaluate the success of their work and demonstrate the value of their contributions to various stakeholders, including funding agencies, institutions, and the wider community.

How to create a research plan

You can use these templates as a starting point:

• Montana State University Individual Development Plan template (Word template)
• 5-year Planning Template (Word template)
• Consult your Role & Scope documents
• Collaborate with your network of mentors (if you need help finding a mentor, reach out to [email protected] ).
• Think about your scholarship, teaching, service and create SMARTIE goals (The Management Center webpage).
• Think about what skills you need to achieve your goals
• Update it regularly with your progress and new goals if needed
• Planning Worksheets - Geosciences
• In Response to Popular Demand, More on the 5-Year Plan BY KAREN KELSKY | MAY 9, 2014
• Inclusive Meetings Guide (Harvard University)
• Every Semester Needs a Plan - Planning template
• mentoring network map
• Faculty Mentoring Program
• Goal setting excercise for starting a mentoring relationship
• Potential first meeting agenda

Montana State University P.O. Box 172560 Bozeman, MT 59717-2560

Director: Michael Babcock [email protected]

Assistant Director: Nika Stoop [email protected]  

Instructional Designers: Ken Silvestri [email protected]

Nina Mondré Schweppe [email protected]  

Program Coordinator: Emily Smith [email protected]  

Phone: 406-994-4555 E-mail:  [email protected] Location: 324 Library

• CREd Library , Planning, Managing, and Publishing Research

Developing a Five-Year Research Plan

Cathy binger and lizbeth finestack, doi: 10.1044/cred-pvd-path006.

The following is a transcript of the presentation videos, edited for clarity.

What Is a Research Plan, and Why Do You Need One?

Presented by Cathy Binger

First we’re going to talk about what a research plan is, why it’s important to write one, and why five years—why not one year, why not ten years. So we’ll do some of those basic things, then Liza is going to get down and dirty into the nitty-gritty of “now what” how do I go about writing that research plan.

First of all, what is a research plan? I’m sure some of you have taken a stab at these already. In case you haven’t, this is a real personalized map that relates your projects to goals. It’s exactly what it sounds like, it’s a plan of how you’re going to go about doing your research. It doesn’t necessarily just include research.

It’s something that you need to put a little time and effort into in the beginning. And then, if you don’t revisit it, it’s really a useless document. It’s something that you need to come back to repeatedly, at least annually, and you need to make it visible. So it’s not a document that sits around and once a year you pull it out and look at it.

It can and should be designed, especially initially, with the help of a mentor or colleague. And it does serve multiple purposes, with different lengths and different amounts of detail.

I forgot to say, too, getting started, the slides for this talk were started using as a jumping off point Ray Kent’s talk from last year. So some of the slides we’ve borrowed from him, so many thanks to him for that.

But why do we want to do a research plan? Well, to me the big thing is the vision. Dr. Barlow talked this morning about your line of research and really knowing where you want to go, and this is where that shows up with all the nuts and bolts in place.

What do you want to accomplish? What do you want to contribute? Most of you are at the stage in your career where maybe you have started out with that you want to change the world scenario and realized that whatever you wanted your first research project to be, really, is your entire career. You need to get that down to the point where it is manageable projects that you can do—this is where you map out what those projects are and set reasonable timelines for that.

You want to really demonstrate your independent thinking and your own creativity, whatever that is that you then establish as a PhD student, postdoc, and beyond—this is where you come back to, okay, here’s how I’m going to go about achieving all of that.

This next point, learning to realistically gauge how long it takes to achieve each goal, this for most of us is a phenomenally challenging thing to do. Most of us really overestimate what we can do in a certain amount of time, and we learn the hard way that you can’t, and that’s another reason why you keep coming back to these plans repeatedly and learning over time what’s really manageable, what’s really doable, so we can still reach our goals and be very strategic about how we do that.

When you’re not strategic, you just don’t meet the goals. Your time gets sucked into so many different things. We need to be really practical and strategic.

Everything we do is going to take longer than we think.

I think this last one is something that maybe we don’t talk about enough. Really being honest with ourselves about the role of research in our lives. Not all of you are at very high-level research universities. Some of you have chosen to go elsewhere, where research maybe isn’t going to be playing the same role as it is for other people. The research plan for someone at an R One research intensive university is going to look quite different from someone who is at a primary teaching university. We need to be open and practical about that.

Getting sidetracked. I love this picture, I just found this picture the other day. This feels like my life. You can get pulled in so many different directions once you are a professor. You will get asked to do a thousand different things. There are lots of great opportunities that are out there. Especially initially, it’s tempting to say yes to all of them. But if you’re going to be productive, you have to be very strategic. I’m going to be a little bit sexist against my own sex here for a minute, but my observation has been that women tend to fall into this a little bit more than men do in wanting to say yes and be people pleasers for everything that comes down the pike.

It is a professional skill to learn how to say no. And to do that in such a way that you are not burning bridges as you go down the path. That is a critical skill if you are going to be a successful researcher. I can’t tell you how many countless people I’ve seen who are very bright, very dedicated, have the skills that it takes in terms of doing the work—but then they are not successful because they’ve gotten sidetracked and they try to be too much of a good citizen, give too much service to the department, too much “sure I’ll take on that extra class” or whatever else comes down the line.

I just spoke with a professor recently who had something like five hours a week of office hours scheduled every single week for one class. Margaret is shaking her head like “are you kidding?” That’s crazy stuff. But he wanted to really support his students. His students loved him, but he was not going to get tenure. That’s the story.

So we have to be very thoughtful and strategic, and what can help you with this, and ASHA very firmly recognizes which is why we’re here—is that your mentors in your life should be there to help you learn these skills and learn what to say yes to, and learn what to say no to. I’ve learned to say things like, “Let me check with my mentor before I agree to that.” And it gives you a way out of that. The line that I use a lot is, “Let me check with my department head” or, I just said this to somebody last week, “I just promised my department head two weeks ago that I would only do X number of external workshops this year, so I’m going to have to turn this one down.” Those are really important skills to develop.

And having that research plan in place that you can go back to and say, know what, it’s not on my plan I can’t do it. If I do it—I have to go back to my research plan and figure out what I’m going to kick off in order to review this extra paper, in order to take on this extra task. The plan also helps me to know exactly what to say no to. And to be very direct and have a very strong visual.

I actually have my research plan up on a giant whiteboard in my office, so I can always go back to that and see where I am, and I can say, “Okay, what am I going to kick off of here? Nothing. Okay, I have to say no to whatever comes up.” Just be strategic. This is where I see most beginning professors really end up taking that wrong fork in the road—taking that right instead of that left, and ending up not being the successful researcher that they wanted to be.

What evidence supports research planning? This was something Ray Kent had found. That a recent analysis had found that postdoc scholars who developed a written plan with their postdoc advisers were much more productive than those who didn’t. And your performance during a postdoc—and I know many of you have either finished your postdoc or decided not to—so more simply, just during those first six years, the decisions you make really do establish the foundation for the rest of your professional life. It’s very important to get started and get off on the right foot.

I love this quote, I just found it the other day: “Productivity is never an accident. It is always the result of a commitment to excellence, intelligent planning, and focused effort.”

What we see with productivity is that postdoc scholars who developed written productivity expectations with their advisers were more productive than those who didn’t. You see 23% more papers submitted, 30% more first-author papers, and more grant proposals as well.

So why five years? I’m going to start with number 5. It’s long enough to build a program of research, but short enough to deal with changing circumstances. That’s really the long and the short of the matter. As well as these other things as well that I won’t take the time to go through point by point.

What Should a Five-Year Plan Include?

Presented by Lizbeth Finestack

So, thinking about a five-year research plan, I like to think about it like your major “To Do List.” It’s what you’re going to accomplish in five years. Start thinking: What is going to be on my to do list?

You can also think about it like: Okay, I have research. I’ve got to do research. Maybe think about this as one big bucket, or maybe one humongous silo. I have some farm themes going on. Cathy was just on a farm, so I thought I’d tie that in.

So here’s your big silo. You can call that your research silo.

But more realistically, you need to think about it like separate buckets, separate silos, where research is just one of those. Just like Cathy indicated, there’s going to be lots of other things coming up that you’re going to have to manage. They are going to have to be on your to do list, you need to figure out how to fit everything in.

What all those other buckets or silos are, are really going to depend on your job. And maybe the size of the silos, and the size of the buckets are going to vary depending on where you are, what the expectations are at your institution.

That’s important to keep in mind, and Cathy said this too, it’s not going to be the same for everyone. The five-year plan has to be your plan, your to do list.

Here are some buckets or some silos that I have on my list and the way that I break it up, this is just one example, take it or leave it.

The first three are all very closely related, right? Thinking about grants, thinking about research, thinking about publications. I’m going to define grants as actual writing, getting the grant, getting the money.

Research is what you’re going to do once you get that money. Steps you need to take before you are getting the money. Any sorts of projects, the lab work, that’s why I have the lab picture there. Of course, publications are part of the product—what’s coming out of the research—but it also cycles in because you need publications to support that you are a researcher to apply for funding and show you have this line of research that you’ve established and you’ll be able to continue. So, those first three are really closely related. And that’s where I’ll go next. And then have teaching and service you see here at the bottom.

So thinking about research, in that broad sense. As you’re writing your five-year plan you’re going to want to think of, “What’s my long-term goal?” There’s lots of ways to think of long-term goals. You could think, before I die, this is what I want to accomplish. For me I kind of have that. My long-term goal is that I’m going to find the most effective and efficient interventions for kids with language impairment. Huge broad goal. But within that I can start narrowing it down.

Where am I within that? Within the next five years or maybe the next ten years, what is it I want to accomplish towards that goal. Then start thinking about: In order to accomplish that goal, what are the steps I need to take? Starting to break it down a little bit. Then it’s also going to be really important to think: where are you going to start? Where are you now? What do you need to have happen? And is it reasonable to accomplish this goal within five years? Is it going to take longer? Maybe you could do it in a couple years? Start thinking about the timeline that’s going to work for you.

Then thinking about your goals—and everyone’s program is going to be different, like I said, there’s going to be a lot of individual needs, preferences. So it might be the case that you have this one long-term goal that you’re aiming for. Long-term goal in the sense of, maybe, what you want to study in your R01, perhaps something like that. But in order to get to that point, you’re going to have several short-term goals that need to be accomplished.

Or maybe it’s the case that you have two long-term goals. And with each of those you’re going to have multiple short-term goals that you’re working on. Maybe the scope of each of these long-term goals is a little bit less than in that first scenario.

Start thinking about my research, what I want to do, and how it might fit into these different circumstances.

Also thinking about your goals, this is a slide from Ray Kent from last year, was thinking about the different types of projects you might want to pursue, and thinking about ones that are definitely well on your way. They are safe bets. You have some funding. They are going to lead directly into your longer-term plan.

Those are going to be your front burner—things you can easily focus on. That said, don’t put everything there.

You can also have things on the back burner. Things that really excite you, might have huge benefits, big pay. But you don’t want to spend all of your time there because they could be pretty risky.

Start thinking about where you’re putting your time. Are you putting it all on this high-risk thing that if it doesn’t pan out you’re going to be in big trouble? Or balancing that somewhat with your front burner. Making that steady progress that will lead directly to help fund an R01 or whatever the mechanism that you’re looking for.

Then, thinking about your goals—if you have multiple long-term goals, or thinking about your short-term goals, you could think about your process. Is it something where you need to do study 1 then study 2, then study 3—each of those building on each other, that’s leading to that long-term goal. In many cases, that is the case, where you have to get information from the first study which is going to lead directly to the second study and so forth.

Or is it the case that you can be working on these three short-term goals simultaneously? Spreading your resources at the same time. Maybe it will take longer for any one study, but across a longer period of time you’ll get the information that you need to reach that long-term goal.

Lots and lots of different ways to go about it. The important thing is to think about what your needs are and what makes the most sense for you.

Here’s my own little personal example. Starting over here, I have my dissertation study. My dissertation study was this early efficacy study looking at one treatment approach using novel forms that really can’t generalize to anything too useful, but it was important.

Then I did a follow up study, where I was taking that same paradigm, looking to see where kids with typical development perform on the task. So I have these two studies, and they served as my preliminary studies for an R03. So I just finished an R03 where I was looking at different treatment approaching for kids with primary language impairment. At the same time, while conducting my R03, I’m also looking at some different approaches that might help with language development. Also conducting surveys to see what current practices are.

I have these three projects going on simultaneously, that are going to lead to a bigger pilot study that are going to feed directly into my R01. All of this will serve as preliminary data to go into an R01.

Start thinking about your projects, what you have. Maybe starting with your dissertation project or work that you’re doing as a postdoc as seeing how that can feed into your long-term goal. And really utilizing it, building on it, to your benefit.

That’s all fine and dandy. You can draw these great pictures. But you still have to break it down some more. It’s not like, “Oh, I’m just going to do this project.” There are other steps involved, and lots of the time these steps are going to be just as time consuming.

Starting to think about: well, if you have the funding. Saying, “I want to do this study, but I have no money to do it.” What are the steps in order to get the money to do it? Do you have a pilot study? What do you need?

Start thinking about the resources? Do you need to develop stimuli, protocols, procedures? Start working on that. All of these can be very time consuming, and if you don’t jump on that immediately, it’s going to delay when you can start that project.

Thinking about IRB. Relationships for recruitment, if you’re working with special populations especially? Do you have necessary personnel, grad students, people to help you with the project? Do you need to train them? What’s the timeline of the study?

Start thinking about all these pieces, and how they are going to fit in that timeline.

This is one way that might help you start thinking about the resources that you need. This is online—Ray Kent had it in his talk, and when I was doing my searches I came across it too and I have the website at the end. Just different ways to think about the resources you might need.

Let’s talk about mapping it out. You have your long-term goal. You have your short-term goals. You’re breaking it down thinking about all those little steps that you need to accomplish. We gotta put it on a calendar. When is it going to happen?

This is an example—you might have your five years. Each month plugging in what are you going to accomplish by that time. Maybe it’s when are grant applications due? It’s going to be important to put those on there to go what do I need to do to make that deadline. Maybe it’s putting when you’re going to get publications out. Things like that.

Honestly, looking at this drives me a little bit crazy, it seems a bit overwhelming. But it’s important to get to these details.

This is an example from, I did Lessons for Success a few years ago and they had their format for doing your plan. I wrote out all my projects, started thinking about all the different aspects. So if something like this works for you, by all means you could use that type of procedure.

Here’s a grid that Ray Kent showed last year. We’re breaking it down by semester. Thinking about each of your semesters, what manuscripts you’re going to be working on, what data collection, your grant applications. Starting to get into some of those other buckets: course preparation, conference submissions.

We also need to include teaching and service.

You probably can’t see this very well. This is similar to that last slide Ray Kent had used last year.

I have my five year plan: what studies I want to accomplish, start thinking about breaking it down.

Then at the beginning of each semester, I fill in a grid like this. Where at the top, I have each of my buckets. I have my grant bucket, my writing bucket which is going to include publications. I also include doing article reviews in my writing bucket, because that’s my writing time. My teaching bucket, my research bucket. Then at the end, my service bucket.

At the beginning of the semester, I think about the big things I want to accomplish. I list those at the top. Then at the beginning of each month, I say, okay what are the things I’m going to accomplish this month, write those in. Then at the beginning of each week, I start looking at whether I’m dedicating any time to the things I said I was going to do that month. I start listing those out saying, this is the amount of time I’m going to spend on that. Of course, I have to take data on what I actually do, so I plug in how much time I’m spending on each of the tasks. Then I graph it, because that’s rewarding to see how much time you’re spending on things, and I get a little side-tracked sometimes.

Think about a system that will help you keep on track, to make sure you’re meeting the goals that you want to meet in terms of your research. But also getting the other things done that you need to get done in terms of teaching and service.

Discussion and Questions

Compiled from comments made during the Pathways 2014 and 2015 conferences. (Video unavailable.)

Building Flexibility into Your Five-Year Plan Comments by Ray Kent, University of Wisconsin-Madison

The five-year plan is not a contract. It’s a map or a compass. A general set of directions to help you plan ahead. It’s not even a contract with yourself, because it will inevitably be revised in some ways.

Sometimes cool things land in your lap. Very often it turns out that through serendipity or whatever else, you find opportunities that are very enticing. Some of those can be path to an entirely new line of research. Some of them can be a huge distraction and a waste of time. It’s a really cool part of science that new things come along. If we put on blinders and say, “I’m committed to my research plan,” and we don’t look to the left or the right, we’re really robbing ourselves of much of the richness of the scientific life. Science is full of surprises, and sometimes those surprises are going to appear as research projects. The problem is you don’t want to redirect all your time and resources to those until you’re really sure they are going to pay off. I personally believe, some of those high risk but really appealing projects are things you can nurse along. You can devote some time and build some collaborations – far enough to determine how realistic and viable they are. That’s important because those things can be the core of your next research program.

It’s very easy to get overcommitted. We all know people who always say “yes”—and we know those people, and they are often disappointing because they can’t get things done. It’s important to have new directions, but limit them. Don’t say, “I’m going to have 12 new directions this year.” Maybe one or two. Weigh them carefully. Talk about them with other people to get a judgment about how difficult it might be to implement them. It enriches science: not only our knowledge, but the way we acquire new knowledge. A psychologist, George Miller—this is the guy with the magic number 7 +- 2—when we interviewed him years ago at Boystown, he said, “My conviction is that everybody should be able to learn a new area of study within three months.” That’s what he thought for a scientist was a goal.

The idea is that you can learn new things. And that’s very important because when you think of it in terms of a 30-year career, how likely is it that the project that you’re undertaking at age 28 is the same project you’ll be working on at age 68? Not very likely. You’re going to be reinventing yourself as a scientist. And reinventing yourself is one of the most important things you can do, because otherwise you’re going to be dead wood. Some projects aren’t worth carrying beyond five or ten years. They have an expiration date.

Building Risk into Your Five-Year Plan Comments by Ray Kent, University of Wisconsin-Madison

Your doctoral study should generally be low-risk research. As you move into a postdoctoral fellowship, think about having two studies—one low-risk, one high-risk with a potential for high impact. At this time you can begin to play the risk factor a little bit differently.

When you are tenure-track you can have a mix of significance with low-risk and high-risk studies. And when you are tenured, then you can go for high risk, clinical trials, and collaborations. Because you have established your independence, so you do not need to worry about losing your visibility. You can be recognized as a legitimate member of the team.

As you plan your career, you should take risk into account. Just as you manage your money taking risk into account, we should manage our careers taking risk into account. I have met people who did not really think about that, and they embarked on some very risky procedures and wasted a lot of time and resources with very little to show for it. For example, don’t put everything into an untested technology basket. You want to be using state of the art technology, but you want to be sure it is going to give you what you need.

Other Formats and Uses of Your Research Plan Audience Comments

• If you do your job right with your job talk, there’s a lot of cross-pollination between your job talk and your research plan. Ideally your job talk tells your colleagues that this is the long-term plan that you have. And they shouldn’t be surprised when you submit a more detailed research plan. They should say, “okay this is very consistent with the job talk.” In my view, the job talk should be a crystal summary of the major aspects of that research program. Of course, much of the talk will be about a specific project or two—but it should always be embedded within the larger program. That helps the audience keep sight of the fact that you are looking at the program. You can say that this is one project that I’ve done, and I plan to do more of these, and this is how they are conceptually related. That’s a good example of why the research plan has multiple purposes – it can be a research statement, it can be the core of your job talk, it can be the nature of your elevator message, and it can be a version of your research plan for a K award application or R01 application or anything else of that nature.
• I think what’s useful is to actually draft your NIH biosketch. The new biosketch has a section called “contributions to science.” It’s really helpful to think about all your projects. It’s hard to start with a blank sheet of paper. But to have it in the format of a biosketch can be really helpful.

Avoiding Overcommitment Audience Comments

• One of the things that is amazing about planning is that if you put an estimate on the level of effort for each part of your plan, you’ll quickly find that you are living three or four lives. Some 300% of your time is spent. It’s helpful for those of us who might share my lack of ability to see constraints or limitations to reel it back and say, “I have a lot on my plate.” Which allows you to say no—which is not something we all do very well when it comes to those nice colleagues and those people you want to impress nationally and connect with. But it allows you to look at what’s planned and go, “I don’t know where I’d find the time to do that.” Which will hopefully help you stay on track.
• I keep a to do list, but I also keep a “to not do” list. One of the things I will keep on my plan is the maximum number of papers I will review in a year. If I hit that number in March, that’s it. I say no to every other paper that comes down the pike. That’s something to work out with your mentor as far as what’s realistic and what’s okay for you. Every time I get a request, I think, “That’s my reading and writing time, so what am I willing to give up. If it means I won’t be able to write on my own paper this week, am I willing to do this?”

Staying on Schedule with Reading, Writing, and Reviewing Audience Comments

• You have to do what works for you. Some people do wait for big blocks of time for writing—which are hard to come by. But the most important thing is to block off your time. Put it on your schedule, or it is the first thing that will get pushed aside.
• Another thing I’ve done with some of my colleagues is writing retreats. So maybe once a year, twice a year, we’ll get together. Usually we’ll go to a hotel or somewhere, and we’re just writing. It’s a great way to get a jumpstart on a project. Like, I need to sit down and start this manuscript, and you can keep going once you’ve got that momentum.
• My input would be that you really have to write all the time, every day. It’s a skill. I’ve found that if I take time off, my writing deteriorates. It’s something you need to keep up with.
• I would look at it like a savings account that you put money into on a daily, weekly, monthly basis. The flip side of writing is reading. I would read constantly, widely, and not just in the discipline. That will give you not only a breadth in terms of your understanding of your field and the world around you, but it will also give you an incentive to make your own contributions. I think we don’t talk enough about the comprehensive side to this, and being receptive to the reading. I have a book, or something, by my bedside every night. And I read that until I fall asleep every night. And it’s done me in good stead over the years.
• Reviewing articles can help advance your career, but it is something you need to weigh carefully as a draw on your time. You get a lot from it. You get to see what’s out there. You get to see what’s coming down the pipe before publication. To me that’s a huge benefit. You get to learn from other people’s writing, and that’s part of your reading you get to do. But it is time consuming. And it depends on the kinds of papers you get. Sometimes you’re lucky and sometimes you’re not.
• If someone else is reviewing your grants and your articles, at some point you owe it back. You should at least be in break-even mode. Now, pre-tenure or postdoc your mentor should be doing that or senior faculty in the department. But there are so many articles to review. I review so many articles, but I am also at the tail end of my career. The bottom line is, if you don’t put on your schedule that if you don’t put time on your schedule for reading, reviewing articles forces you to look at and think about the literature, so you can be accomplishing what you owe back to the field—and at the same time, staying one step ahead knowledge wise. It forces you to do what you should be doing all along, which is keeping up with the literature.

Further Reading: Web Resources

Golash-Boza, T. (2014). In Response to Popular Demand, More on the 5-Year Plan. The Professor Is In . Available at http://theprofessorisin.com/2014/05/09/in-response-to-popular-demand-more-on-the-5-year-plan

Kelsky, K. (2010). The Five-Year Plan for Tenure-Track Professors. Get a life, PhD . Available at http://getalifephd.blogspot.com/2010/07/five-year-plan-for-tenure-track.html

National Association of Geoscience Teachers (NAGT). (2012). Planning Worksheets . Planning your Research Program (Available from the Science Education Resource Center at Carelton College Website at http://serc.carleton.edu/).

Pfirman, S., Bell, R., Culligan, P., Balsam, P. & Laird, J. (2008) . Maximizing Productivity and Recognition , Part 3: Developing a Research Plan. Science Careers. Available at http://sciencecareers.sciencemag.org/career_magazine/previous_issues/articles/2008_10_10/caredit.a0800148

Cathy Binger University of New Mexico

Lizbeth Finestack University of Minnesota

Based on a presentation and slides originally developed by Ray Kent, University of Wisconsin-Madison.

Presented at Pathways (2015). Hosted by the American Speech-Language-Hearing Association Research Mentoring Network.

Pathways is sponsored by the National Institute on Deafness and Other Communication Disorders (NIDCD) of the National Institutes of Health (NIH) through a U24 grant awarded to ASHA.

Copyrighted Material. Reproduced by the American Speech-Language-Hearing Association in the Clinical Research Education Library with permission from the author or presenter.

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How to write a research plan

A research plan is a structured guide or model which a researcher uses to gather their thoughts about the steps or procedures to be used in conducting their research. A research plan is different from a research proposal though some use both terms interchangeably. Unlike the former, the latter is a formal, more detailed document.  A research plan can form the basis from which a research proposal is developed.

Research plans can come in different formats, according to the peculiarities of the proposed research as well as the personal feelings of the researcher. Hence an ideal research plan does not exist.

Below are some tips to consider when writing a research plan.

Specify your sources of funding

Research is usually a lengthy, rigorous, time and energy-consuming process. It can also be capital intensive. For this reason, it needs adequate preparation financially because without funds nothing much will be accomplished. Thus, you need to clearly map out your source(s) of research funds in your plan.

For example, will you apply for research grants from both private and public sector organizations? Unless you are already financially secured, funding should be the most important consideration when writing your plan.

Note your institution’s rules

Knowledge is vast and made up of different fields. Therefore, each field of knowledge has a particular modus operandi which includes a format for writing research projects and theses. Your research plan should take note of all the procedures prescribed by your institution for research work.  These include the Style Guide which provides guidelines on things like punctuation, capitalization, citations, referencing, spacing, formatting of numbers and dates, tables, and others. Popular Style Guides include MLA, Chicago, APA, Turabian, etc.

Your institution also provides rules on the overall structure of your thesis such as the specific headings of each chapter, the type and size of fonts to use among others. Some institutions instruct students on the maximum number of words allowed in a thesis.

Organize the different parts of your research

When you have completely acquainted yourself with your institution’s rules, you then have to strategize on how to organize all aspects of your research according to those rules. An important consideration here is the number of words to be allocated to all the parts or components of your research paper. Here you can benchmark against other works in the same field as yours. If you are writing a journal paper, compare the typical size of a research paper in the journal of your choosing. Likewise, if you are writing a thesis, use past theses as a yardstick when estimating the number of words for the sections and chapters. If not, you have to propose the size of your thesis arbitrarily.

Note that the size depends on your resources because the larger the size, the more you are likely to spend in gathering materials and typing the thesis. Whatever the size you decide on, ensure that your work is thoroughly researched and of a very high quality.

Determine the timeline for the research

Theses usually have a timeline that indicates the allowed duration of time to write them for each session. This timeline depends on the institution’s calendar but you have to discuss it with your supervisor to obtain a clearer picture. Based on the timeline provided by your institution, you can then plan your own tentative schedule. It is tentative because it can be amended at any time if there is a need to.

The schedule should provide an estimated time for the completion of each phase of your thesis. For example, you may decide to complete the first chapter in one week, the second in two weeks, etc. make sure you stick to the tentative schedule so that you will not lag behind in terms of delivering your thesis within the expected time. You can always amend the schedule if the need arises but ensure that you work according to the official timeline to avoid any problems.

Capture your original contribution to knowledge

As you construct your research plan, always realize that one of the purposes of your thesis is to contribute to the stock of knowledge in your field in particular and to education and society as a whole. This contribution is usually linked to the research problem and research questions.

Try to conceptualize how and where your contributions to knowledge will be captured in your thesis. Ensure it is introduced and discussed as logically and appropriately as possible. 

Develop a work schedule

A work schedule is all about allocating time and energy to writing your thesis. Time management is very important because as a graduate student, there should be other things competing for your time besides your thesis such as your job and family among others. Thus, based on the tentative time schedule you constructed earlier, you should map out things like the times of the day to spend writing the drafts, surfing the internet or visiting libraries in search of research materials, taking written drafts to your supervisor for his comments, editing the drafts based on his comments, etc.

Consult others

It is often said that two heads are better than one and that no man is an island. Consultations are a necessary activity in life and research writing is no exception. Hence, when you must have developed most or all of your research plan, it is essential to hear the opinions of others that are knowledgeable in what you are planning. Your thesis supervisor is one good consultant to meet and discuss your draft plan with extensively.

Let him have a copy of the draft plan and allow him some time to go through it before soliciting his advice. Consider adjusting the plan if he asks you to. You can also talk to senior colleagues in your department with research experience to find out how they went about planning the research. The tips you get from them will also help you come up with an effective final research plan.

A research plan is an expression of a student’s thoughts on how to prosecute his research work. It helps the student to have a mental picture of the tasks ahead towards a successful commencement and completion of his research. Though the terms research plan and research proposal are often used interchangeably, they are not exactly the same.

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Medical terms in lay language.

Please use these descriptions in place of medical jargon in consent documents, recruitment materials and other study documents. Note: These terms are not the only acceptable plain language alternatives for these vocabulary words.

This glossary of terms is derived from a list copyrighted by the University of Kentucky, Office of Research Integrity (1990).

For clinical research-specific definitions, see also the Clinical Research Glossary developed by the Multi-Regional Clinical Trials (MRCT) Center of Brigham and Women’s Hospital and Harvard  and the Clinical Data Interchange Standards Consortium (CDISC) .

Alternative Lay Language for Medical Terms for use in Informed Consent Documents

A   B   C   D   E   F   G   H   I  J  K   L   M   N   O   P   Q   R   S   T   U   V   W  X  Y  Z

ABDOMEN/ABDOMINAL body cavity below diaphragm that contains stomach, intestines, liver and other organs ABSORB take up fluids, take in ACIDOSIS condition when blood contains more acid than normal ACUITY clearness, keenness, esp. of vision and airways ACUTE new, recent, sudden, urgent ADENOPATHY swollen lymph nodes (glands) ADJUVANT helpful, assisting, aiding, supportive ADJUVANT TREATMENT added treatment (usually to a standard treatment) ANTIBIOTIC drug that kills bacteria and other germs ANTIMICROBIAL drug that kills bacteria and other germs ANTIRETROVIRAL drug that works against the growth of certain viruses ADVERSE EFFECT side effect, bad reaction, unwanted response ALLERGIC REACTION rash, hives, swelling, trouble breathing AMBULATE/AMBULATION/AMBULATORY walk, able to walk ANAPHYLAXIS serious, potentially life-threatening allergic reaction ANEMIA decreased red blood cells; low red cell blood count ANESTHETIC a drug or agent used to decrease the feeling of pain, or eliminate the feeling of pain by putting you to sleep ANGINA pain resulting from not enough blood flowing to the heart ANGINA PECTORIS pain resulting from not enough blood flowing to the heart ANOREXIA disorder in which person will not eat; lack of appetite ANTECUBITAL related to the inner side of the forearm ANTIBODY protein made in the body in response to foreign substance ANTICONVULSANT drug used to prevent seizures ANTILIPEMIC a drug that lowers fat levels in the blood ANTITUSSIVE a drug used to relieve coughing ARRHYTHMIA abnormal heartbeat; any change from the normal heartbeat ASPIRATION fluid entering the lungs, such as after vomiting ASSAY lab test ASSESS to learn about, measure, evaluate, look at ASTHMA lung disease associated with tightening of air passages, making breathing difficult ASYMPTOMATIC without symptoms AXILLA armpit

BENIGN not malignant, without serious consequences BID twice a day BINDING/BOUND carried by, to make stick together, transported BIOAVAILABILITY the extent to which a drug or other substance becomes available to the body BLOOD PROFILE series of blood tests BOLUS a large amount given all at once BONE MASS the amount of calcium and other minerals in a given amount of bone BRADYARRHYTHMIAS slow, irregular heartbeats BRADYCARDIA slow heartbeat BRONCHOSPASM breathing distress caused by narrowing of the airways

CARCINOGENIC cancer-causing CARCINOMA type of cancer CARDIAC related to the heart CARDIOVERSION return to normal heartbeat by electric shock CATHETER a tube for withdrawing or giving fluids CATHETER a tube placed near the spinal cord and used for anesthesia (indwelling epidural) during surgery CENTRAL NERVOUS SYSTEM (CNS) brain and spinal cord CEREBRAL TRAUMA damage to the brain CESSATION stopping CHD coronary heart disease CHEMOTHERAPY treatment of disease, usually cancer, by chemical agents CHRONIC continuing for a long time, ongoing CLINICAL pertaining to medical care CLINICAL TRIAL an experiment involving human subjects COMA unconscious state COMPLETE RESPONSE total disappearance of disease CONGENITAL present before birth CONJUNCTIVITIS redness and irritation of the thin membrane that covers the eye CONSOLIDATION PHASE treatment phase intended to make a remission permanent (follows induction phase) CONTROLLED TRIAL research study in which the experimental treatment or procedure is compared to a standard (control) treatment or procedure COOPERATIVE GROUP association of multiple institutions to perform clinical trials CORONARY related to the blood vessels that supply the heart, or to the heart itself CT SCAN (CAT) computerized series of x-rays (computerized tomography) CULTURE test for infection, or for organisms that could cause infection CUMULATIVE added together from the beginning CUTANEOUS relating to the skin CVA stroke (cerebrovascular accident)

DERMATOLOGIC pertaining to the skin DIASTOLIC lower number in a blood pressure reading DISTAL toward the end, away from the center of the body DIURETIC "water pill" or drug that causes increase in urination DOPPLER device using sound waves to diagnose or test DOUBLE BLIND study in which neither investigators nor subjects know what drug or treatment the subject is receiving DYSFUNCTION state of improper function DYSPLASIA abnormal cells

ECHOCARDIOGRAM sound wave test of the heart EDEMA excess fluid collecting in tissue EEG electric brain wave tracing (electroencephalogram) EFFICACY effectiveness ELECTROCARDIOGRAM electrical tracing of the heartbeat (ECG or EKG) ELECTROLYTE IMBALANCE an imbalance of minerals in the blood EMESIS vomiting EMPIRIC based on experience ENDOSCOPIC EXAMINATION viewing an  internal part of the body with a lighted tube  ENTERAL by way of the intestines EPIDURAL outside the spinal cord ERADICATE get rid of (such as disease) Page 2 of 7 EVALUATED, ASSESSED examined for a medical condition EXPEDITED REVIEW rapid review of a protocol by the IRB Chair without full committee approval, permitted with certain low-risk research studies EXTERNAL outside the body EXTRAVASATE to leak outside of a planned area, such as out of a blood vessel

FDA U.S. Food and Drug Administration, the branch of federal government that approves new drugs FIBROUS having many fibers, such as scar tissue FIBRILLATION irregular beat of the heart or other muscle

GENERAL ANESTHESIA pain prevention by giving drugs to cause loss of consciousness, as during surgery GESTATIONAL pertaining to pregnancy

HEMATOCRIT amount of red blood cells in the blood HEMATOMA a bruise, a black and blue mark HEMODYNAMIC MEASURING blood flow HEMOLYSIS breakdown in red blood cells HEPARIN LOCK needle placed in the arm with blood thinner to keep the blood from clotting HEPATOMA cancer or tumor of the liver HERITABLE DISEASE can be transmitted to one’s offspring, resulting in damage to future children HISTOPATHOLOGIC pertaining to the disease status of body tissues or cells HOLTER MONITOR a portable machine for recording heart beats HYPERCALCEMIA high blood calcium level HYPERKALEMIA high blood potassium level HYPERNATREMIA high blood sodium level HYPERTENSION high blood pressure HYPOCALCEMIA low blood calcium level HYPOKALEMIA low blood potassium level HYPONATREMIA low blood sodium level HYPOTENSION low blood pressure HYPOXEMIA a decrease of oxygen in the blood HYPOXIA a decrease of oxygen reaching body tissues HYSTERECTOMY surgical removal of the uterus, ovaries (female sex glands), or both uterus and ovaries

IATROGENIC caused by a physician or by treatment IDE investigational device exemption, the license to test an unapproved new medical device IDIOPATHIC of unknown cause IMMUNITY defense against, protection from IMMUNOGLOBIN a protein that makes antibodies IMMUNOSUPPRESSIVE drug which works against the body's immune (protective) response, often used in transplantation and diseases caused by immune system malfunction IMMUNOTHERAPY giving of drugs to help the body's immune (protective) system; usually used to destroy cancer cells IMPAIRED FUNCTION abnormal function IMPLANTED placed in the body IND investigational new drug, the license to test an unapproved new drug INDUCTION PHASE beginning phase or stage of a treatment INDURATION hardening INDWELLING remaining in a given location, such as a catheter INFARCT death of tissue due to lack of blood supply INFECTIOUS DISEASE transmitted from one person to the next INFLAMMATION swelling that is generally painful, red, and warm INFUSION slow injection of a substance into the body, usually into the blood by means of a catheter INGESTION eating; taking by mouth INTERFERON drug which acts against viruses; antiviral agent INTERMITTENT occurring (regularly or irregularly) between two time points; repeatedly stopping, then starting again INTERNAL within the body INTERIOR inside of the body INTRAMUSCULAR into the muscle; within the muscle INTRAPERITONEAL into the abdominal cavity INTRATHECAL into the spinal fluid INTRAVENOUS (IV) through the vein INTRAVESICAL in the bladder INTUBATE the placement of a tube into the airway INVASIVE PROCEDURE puncturing, opening, or cutting the skin INVESTIGATIONAL NEW DRUG (IND) a new drug that has not been approved by the FDA INVESTIGATIONAL METHOD a treatment method which has not been proven to be beneficial or has not been accepted as standard care ISCHEMIA decreased oxygen in a tissue (usually because of decreased blood flow)

LAPAROTOMY surgical procedure in which an incision is made in the abdominal wall to enable a doctor to look at the organs inside LESION wound or injury; a diseased patch of skin LETHARGY sleepiness, tiredness LEUKOPENIA low white blood cell count LIPID fat LIPID CONTENT fat content in the blood LIPID PROFILE (PANEL) fat and cholesterol levels in the blood LOCAL ANESTHESIA creation of insensitivity to pain in a small, local area of the body, usually by injection of numbing drugs LOCALIZED restricted to one area, limited to one area LUMEN the cavity of an organ or tube (e.g., blood vessel) LYMPHANGIOGRAPHY an x-ray of the lymph nodes or tissues after injecting dye into lymph vessels (e.g., in feet) LYMPHOCYTE a type of white blood cell important in immunity (protection) against infection LYMPHOMA a cancer of the lymph nodes (or tissues)

MALAISE a vague feeling of bodily discomfort, feeling badly MALFUNCTION condition in which something is not functioning properly MALIGNANCY cancer or other progressively enlarging and spreading tumor, usually fatal if not successfully treated MEDULLABLASTOMA a type of brain tumor MEGALOBLASTOSIS change in red blood cells METABOLIZE process of breaking down substances in the cells to obtain energy METASTASIS spread of cancer cells from one part of the body to another METRONIDAZOLE drug used to treat infections caused by parasites (invading organisms that take up living in the body) or other causes of anaerobic infection (not requiring oxygen to survive) MI myocardial infarction, heart attack MINIMAL slight MINIMIZE reduce as much as possible Page 4 of 7 MONITOR check on; keep track of; watch carefully MOBILITY ease of movement MORBIDITY undesired result or complication MORTALITY death MOTILITY the ability to move MRI magnetic resonance imaging, diagnostic pictures of the inside of the body, created using magnetic rather than x-ray energy MUCOSA, MUCOUS MEMBRANE moist lining of digestive, respiratory, reproductive, and urinary tracts MYALGIA muscle aches MYOCARDIAL pertaining to the heart muscle MYOCARDIAL INFARCTION heart attack

NASOGASTRIC TUBE placed in the nose, reaching to the stomach NCI the National Cancer Institute NECROSIS death of tissue NEOPLASIA/NEOPLASM tumor, may be benign or malignant NEUROBLASTOMA a cancer of nerve tissue NEUROLOGICAL pertaining to the nervous system NEUTROPENIA decrease in the main part of the white blood cells NIH the National Institutes of Health NONINVASIVE not breaking, cutting, or entering the skin NOSOCOMIAL acquired in the hospital

OCCLUSION closing; blockage; obstruction ONCOLOGY the study of tumors or cancer OPHTHALMIC pertaining to the eye OPTIMAL best, most favorable or desirable ORAL ADMINISTRATION by mouth ORTHOPEDIC pertaining to the bones OSTEOPETROSIS rare bone disorder characterized by dense bone OSTEOPOROSIS softening of the bones OVARIES female sex glands

PARENTERAL given by injection PATENCY condition of being open PATHOGENESIS development of a disease or unhealthy condition PERCUTANEOUS through the skin PERIPHERAL not central PER OS (PO) by mouth PHARMACOKINETICS the study of the way the body absorbs, distributes, and gets rid of a drug PHASE I first phase of study of a new drug in humans to determine action, safety, and proper dosing PHASE II second phase of study of a new drug in humans, intended to gather information about safety and effectiveness of the drug for certain uses PHASE III large-scale studies to confirm and expand information on safety and effectiveness of new drug for certain uses, and to study common side effects PHASE IV studies done after the drug is approved by the FDA, especially to compare it to standard care or to try it for new uses PHLEBITIS irritation or inflammation of the vein PLACEBO an inactive substance; a pill/liquid that contains no medicine PLACEBO EFFECT improvement seen with giving subjects a placebo, though it contains no active drug/treatment PLATELETS small particles in the blood that help with clotting POTENTIAL possible POTENTIATE increase or multiply the effect of a drug or toxin (poison) by giving another drug or toxin at the same time (sometimes an unintentional result) POTENTIATOR an agent that helps another agent work better PRENATAL before birth PROPHYLAXIS a drug given to prevent disease or infection PER OS (PO) by mouth PRN as needed PROGNOSIS outlook, probable outcomes PRONE lying on the stomach PROSPECTIVE STUDY following patients forward in time PROSTHESIS artificial part, most often limbs, such as arms or legs PROTOCOL plan of study PROXIMAL closer to the center of the body, away from the end PULMONARY pertaining to the lungs

QD every day; daily QID four times a day

RADIATION THERAPY x-ray or cobalt treatment RANDOM by chance (like the flip of a coin) RANDOMIZATION chance selection RBC red blood cell RECOMBINANT formation of new combinations of genes RECONSTITUTION putting back together the original parts or elements RECUR happen again REFRACTORY not responding to treatment REGENERATION re-growth of a structure or of lost tissue REGIMEN pattern of giving treatment RELAPSE the return of a disease REMISSION disappearance of evidence of cancer or other disease RENAL pertaining to the kidneys REPLICABLE possible to duplicate RESECT remove or cut out surgically RETROSPECTIVE STUDY looking back over past experience

SARCOMA a type of cancer SEDATIVE a drug to calm or make less anxious SEMINOMA a type of testicular cancer (found in the male sex glands) SEQUENTIALLY in a row, in order SOMNOLENCE sleepiness SPIROMETER an instrument to measure the amount of air taken into and exhaled from the lungs STAGING an evaluation of the extent of the disease STANDARD OF CARE a treatment plan that the majority of the medical community would accept as appropriate STENOSIS narrowing of a duct, tube, or one of the blood vessels in the heart STOMATITIS mouth sores, inflammation of the mouth STRATIFY arrange in groups for analysis of results (e.g., stratify by age, sex, etc.) STUPOR stunned state in which it is difficult to get a response or the attention of the subject SUBCLAVIAN under the collarbone SUBCUTANEOUS under the skin SUPINE lying on the back SUPPORTIVE CARE general medical care aimed at symptoms, not intended to improve or cure underlying disease SYMPTOMATIC having symptoms SYNDROME a condition characterized by a set of symptoms SYSTOLIC top number in blood pressure; pressure during active contraction of the heart

TERATOGENIC capable of causing malformations in a fetus (developing baby still inside the mother’s body) TESTES/TESTICLES male sex glands THROMBOSIS clotting THROMBUS blood clot TID three times a day TITRATION a method for deciding on the strength of a drug or solution; gradually increasing the dose T-LYMPHOCYTES type of white blood cells TOPICAL on the surface TOPICAL ANESTHETIC applied to a certain area of the skin and reducing pain only in the area to which applied TOXICITY side effects or undesirable effects of a drug or treatment TRANSDERMAL through the skin TRANSIENTLY temporarily TRAUMA injury; wound TREADMILL walking machine used to test heart function

UPTAKE absorbing and taking in of a substance by living tissue

VALVULOPLASTY plastic repair of a valve, especially a heart valve VARICES enlarged veins VASOSPASM narrowing of the blood vessels VECTOR a carrier that can transmit disease-causing microorganisms (germs and viruses) VENIPUNCTURE needle stick, blood draw, entering the skin with a needle VERTICAL TRANSMISSION spread of disease

WBC white blood cell

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Bill Signed: H.R.   2365

On Tuesday, July 2, 2024, the President signed into law:   H.R. 2365, the “Dr. Emmanuel Bilirakis and Honorable Jennifer Wexton National Plan to End Parkinson’s Act,” which requires the Department of Health and Human Services to develop and evaluate progress on a government-wide plan to address Parkinson’s and related diseases, and to require the convening of a Parkinson’s advisory committee.

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Most Americans plan to watch the Biden-Trump debate, and many see high stakes, an AP-NORC poll finds

A new AP-NORC poll finds that most U.S. adults plan to watch or listen to some element of Thursday’s presidential debate. And many think the stakes are high for both President Joe Biden and former President Donald Trump.

Signage for the upcoming presidential debate is seen at the media file center near the CNN Techwood campus in Atlanta on Tuesday, June 25, 2024. A new poll finds that most U.S. adults plan to watch or listen to some element of Thursday’s presidential debate. (AP Photo/Pablo Martinez Monsivais)

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Rep. Wesley Hunt, R-Texas, speaks during an event Wednesday, June 26, 2024, in Atlanta, hosted by the Donald Trump campaign billed as a “Black American Business Leaders Round Table,” at Rocky’s Barber Shop, in advance of the presidential debate between President Joe Biden and Republican presidential candidate former President Donald Trump. (AP Photo/Gerald Herbert)

Ben Starett, lighting programmer for CNN, sets up lights in the spin room for the upcoming CNN Presidential Debate between President Joe Biden and Republican presidential candidate former President Donald Trump in Atlanta, Wednesday, June 26, 2024. (AP Photo/Gerald Herbert)

People converse during setup in the spin room for the upcoming CNN Presidential Debate between President Joe Biden and Republican presidential candidate former President Donald Trump in Atlanta, Wednesday, June 26, 2024. (AP Photo/Gerald Herbert)

FILE - Democratic presidential candidate former Vice President Joe Biden speaks during the first presidential debate with President Donald Trump Sept. 29, 2020, at Case Western University and Cleveland Clinic, in Cleveland. (AP Photo/Patrick Semansky, File)

This combination of photos show President Donald Trump, left, and former Vice President Joe Biden during the first presidential debate on Sept. 29, 2020, in Cleveland. (AP Photo/Patrick Semansky, File)

WASHINGTON (AP) — Most U.S. adults plan to watch some element of Thursday’s presidential debate and many think the event will be important for the campaigns of both President Joe Biden and former President Donald Trump, according to a new poll from The Associated Press-NORC Center for Public Affairs Research .

Both men remain broadly unpopular as they prepare to face off for the first time since 2020, although Trump, the presumptive Republican nominee, maintains a modest enthusiasm advantage with his base compared to Biden, the Democratic incumbent.

About 6 in 10 U.S. adults say they are “extremely” or “very” likely to watch the debate live or in clips, or read about or listen to commentary about the performance of the candidates in the news or social media.

The poll suggests tens of millions of Americans are likely to see or hear about at least part of Thursday’s debate despite how unusually early it comes in the campaign season. Both Biden and Trump supporters view the debate as a major test for their candidate — or just a spectacle not to miss.

“I think it’s super important,” said Victoria Perdomo, a 44-year-old stay-at-home mom and a Trump supporter in Coral Springs, Florida. “It shows America what you’re going to see for the next four years.”

Nic Greene, a libertarian who is a registered independent, said he’ll likely vote for Trump as the “least worst candidate.” He doesn’t think debates do much to help voters make decisions, but he’s expecting to be entertained and plans to listen to post-debate analysis on podcasts.

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“I think the majority of people have their minds made up with or without these debates,” he said. “It’s a circus.”

Both sides see the debate as important

About half, 47%, of Americans say the debate is “extremely” or “very” important for the success of Biden’s campaign and about 4 in 10 say it’s highly important for Trump’s campaign. About 3 in 10 Americans say it is at least “very” important for both campaigns.

Most Democrats, 55%, think the upcoming debate is extremely or very important for the success of the Biden campaign. About half of Republicans, 51%, say the same thing about the importance of the debate for the Trump campaign. Only about one-third of independents say the debate, taking place at a CNN studio in Atlanta, is highly important for either campaign.

Arthur Morris, a 40-year-old operations manager at a major financial firm, is an undecided voter open to Biden, Trump or a third-party option such as independent candidate Robert F. Kennedy, Jr. He, along with a significant share of Americans, has doubts about the mental capabilities of the aging candidates, and sees Biden’s debate performance as an important test.

“I need Biden to demonstrate to me that he’s cogent enough to be able to hold this office and execute to the level that we need him to,” Morris said.

Trump, meanwhile, needs to show he can be trusted after the Jan. 6, 2021, attack on the U.S. Capitol in which Trump supporters disrupted the certification of his 2020 loss to Biden and Trump’s recent conviction in a hush money scheme, said Morris, of Lewiston, Ohio.

About 4 in 10 say they are likely to watch or listen to some or all of the debate live, while a similar share say they will watch or listen to clips later. Another 4 in 10, roughly, expect to consume commentary about the debate and candidate performance in the news or on social media. Republicans and Democrats are more likely than independents to be following debate coverage in some capacity.

Voters are still unhappy about their options

Biden and Trump are each entering the debate with low favorability ratings. About 6 in 10 U.S. adults say they have a very or somewhat unfavorable view of Biden, and a similar number have a negative view of Trump.

Most Americans, 56%, say they are “very” or “somewhat” dissatisfied with Biden being the Democratic Party’s likely nominee for president, and a similar majority are dissatisfied with Trump as the likely GOP nominee. The poll indicates that Republicans continue to be more satisfied with a re-nomination of Trump than Democrats are with an anticipated Biden re-nomination. Six in 10 Republicans are satisfied with Trump as a nominee; just 42% of Democrats say that about Biden.

About 3 in 10 U.S. adults are dissatisfied with both Trump and Biden as their party’s likely nominees – with independents and Democrats being more likely than Republicans to be dissatisfied with both.

Republicans and Democrats are more likely to have a negative view of the opposing party’s candidate than they are to have a positive view of their own.

About 9 in 10 Republicans have an unfavorable view of Biden, and about 9 in 10 Democrats have a negative view of Trump. By comparison, roughly 7 in 10 Democrats have a favorable view of Biden, and about 7 in 10 Republicans have a positive view of Trump.

About 4 in 10 U.S. adults approve of how Biden is handling his job as president, in line with where that number has stood for the past two years. Biden’s approval rating among U.S. adults on handling the economy is similar, as is his handling of abortion policy. Only 3 in 10 approve of his approach to immigration.

“I do believe there has been some progress under Biden, but I believe it’s Congress who is the one stalling on any of the policies that Biden wants to proceed with,” said Jane Quan-Bell, 70, a school librarian from Chico, California, and a Democrat.

The conflict between the Israelis and Palestinians is an especially vulnerable spot for Biden. With only 26% of U.S. adults approving of his handling of the issue, it’s well below his overall approval rating. Nearly 6 in 10 Democrats disapprove of his approach.

The poll of 1,088 adults was conducted June 20-24, 2024, using a sample drawn from NORC’s probability-based AmeriSpeak Panel, which is designed to be representative of the U.S. population. The margin of sampling error for all respondents is plus or minus 4.0 percentage points.

Cooper reported from Phoenix.

A previous version of this story misspelled Arthur Morris’ last name. It is Morris, not Murray.