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Albert Ritzhaupt
Power and Sample Size for Longitudinal and Multilevel Study Designs, a five-week, fully online course covers innovative, research-based power and sample size methods, and software for multilevel and longitudinal studies. The power and sample size methods and...
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Power and Sample Size for Longitudinal and Multilevel Study Designs, a five-week, fully online course covers innovative, research-based power and sample size methods, and software for multilevel and longitudinal studies. The power and sample size methods and software taught in this course can be used for any health-related, or more generally, social science-related (e.g., educational research) application. All examples in the course videos are from real-world studies on behavioral and social science employing multilevel and longitudinal designs. The course philosophy is to focus on the conceptual knowledge to conduct power and sample size methods. The goal of the course is to teach and disseminate methods for accurate sample size choice, and ultimately, the creation of a power/sample size analysis for a relevant research study in your professional context. Power and sample size selection is one of the most important ethical questions researchers face. Interventional studies that are too large expose human volunteer research participants to possible, and needless, harm from research. Interventional studies that are too small will fail to reach their scientific objective, again bringing possible harm to research participants, without the possibility of concomitant gain from the increase in knowledge. For observational studies in which there are no possible harms to the participants, such as observational studies, proper power ensures good stewardship of both time and money. Most National Institutes of Health (NIH) study sections will only fund a grant if the grantee has written a compelling and accurate power and sample size analysis. The Institute of Education Sciences (IES), the statistics, research, and evaluation arm of the U.S. Department of Education, also offers competitive grants requiring a compelling and accurate power and sample size analysis (Goal 3: Efficacy and Replication and Goal 4: Effectiveness/Scale-Up). At the end of the online course, learners will be able to: • Use a framework and strategy for study planning • Write study aims as testable hypotheses • Describe a longitudinal and multilevel study design • Write a statistical analysis plan • Plan a sampling design for subgroups, e.g. racial and ethnic • Demonstrate the feasibility of recruitment • Describe expected missing data and dropout • Write a power and sample size analysis that is aligned with the planned statistical analysis This is a five-week intensive and interactive online course. We will use a mix of instructional videos, software demonstration videos, online readings, quizzes, and exercise assignments. The final course project is a peer-reviewed research study you design for future power or sample size analysis.
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Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Teachers learners how to conduct power and sample size methods, imperative for researchers
Taught by Albert Ritzhaupt, a well-known expert in power and sample size
Suitable for health-related and social science researchers
Meets the requirements of funding agencies like NIH and IES
Provides a comprehensive framework for study planning and analysis
Requires students to complete a peer-reviewed research study for the final project

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Reviews summary

Multilevel and longitudinal study designs course

This course teaches power and sample size methods and software for multilevel and longitudinal studies. Reviews say that this course is well-organized, has relevant content, and provides excellent training videos and exercises. However, some reviewers note that the forums don't work and that the presentation of lessons is outdated.
Offers excellent training videos and exercises.
"Very good course and contents. Excellant training videos and exercises"
Provides relevant content for health-related and social science applications.
"The power and sample size methods and software taught in this course can be used for any health-related, or more generally, social science-related (e.g., educational research) application."
"All examples in the course videos are from real-world studies on behavioral and social science employing multilevel and longitudinal designs."
Forums don't work and lecturers don't respond.
"The forums don't work, there are hardly any participants, lecturers don't respond ..."
Presentation of lessons is outdated.
"It took 3 weeks after submitting the last assignments before I received my grades. This content deserves a major update."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Power and Sample Size for Multilevel and Longitudinal Study Designs with these activities:
Seek out a mentor or advisor who can provide guidance on power and sample size methods
Finding a mentor or advisor can provide you with personalized guidance and support as you learn about power and sample size methods.
Browse courses on Hypothesis Testing
Show steps
  • Identify potential mentors or advisors
  • Reach out and introduce yourself
  • Schedule a meeting to discuss your goals
Follow Online Tutorials on Power and Sample Size
Watching tutorials can provide additional support and clarify concepts, especially in areas where you need reinforcement.
Show steps
  • Identify reputable online sources for tutorials.
  • Choose tutorials that cover relevant topics.
  • Take notes and ask questions to enhance comprehension.
Review tutorials and online resources on power and sample size methods
Reviewing tutorials and online resources will help you to supplement the material covered in the course and reinforce your understanding.
Browse courses on Hypothesis Testing
Show steps
  • Identify reputable tutorials and online resources
  • Review the materials
  • Take notes and ask questions
Nine other activities
Expand to see all activities and additional details
Show all 12 activities
Review textbooks and research articles on power and sample size methods
Reviewing textbooks and research articles will help you to gain a deeper understanding of the theory and application of power and sample size methods.
Show steps
  • Identify reputable textbooks and research articles
  • Review the materials
  • Take notes and ask questions
Engage in Discussion Forums on Power and Sample Size
Participating in discussions allows you to connect with peers, exchange ideas, and clarify concepts through collaboration.
Show steps
  • Join online forums or discussion groups.
  • Read and respond to posts.
  • Ask questions and share your insights.
Design a Fictitious Study and Conduct a Power Analysis
Engaging in the process of designing a study and conducting a power analysis will provide hands-on experience that reinforces learning.
Show steps
  • Develop a research question and hypotheses.
  • Select the appropriate study design.
  • Determine the statistical analysis methods.
  • Conduct a power analysis using software or formulas.
  • Write a report summarizing your findings.
Solve Practice Problems on Power and Sample Size
Regular practice with power and sample size problems will enhance your understanding and solidify your grasp of the concepts.
Show steps
  • Identify the research question and hypotheses.
  • Determine the type of study design (e.g., longitudinal, multilevel).
  • Specify the statistical analysis plan.
  • Calculate the power and sample size using appropriate software or formulas.
Practice power and sample size methods on different research scenarios
Practicing with different research scenarios will improve your understanding of how to apply the power and sample size methods learned in the course.
Browse courses on Hypothesis Testing
Show steps
  • Identify different types of research scenarios
  • Apply power and sample size methods to each scenario
  • Interpret and report the results
Participate in online discussion forums or study groups
Participating in online discussion forums or study groups will allow you to engage with other students, share your ideas, and get feedback on your understanding of the course material.
Browse courses on Hypothesis Testing
Show steps
  • Join an online discussion forum or study group
  • Participate in discussions
  • Ask and answer questions
Develop a Power and Sample Size Analysis Plan
Creating a comprehensive power and sample size analysis plan is a valuable way to demonstrate your understanding of the concepts and their practical application in research.
Show steps
  • Define the research question and hypotheses.
  • Select the appropriate statistical analysis methods.
  • Specify power and sample size requirements.
  • Write a clear and concise report.
Design a power analysis plan for a proposed research study
Designing a power analysis plan will allow you to demonstrate your understanding of the methods taught in the course and how to apply them to a real-world research study.
Browse courses on Sample Size Calculation
Show steps
  • Define the research question and hypotheses
  • Choose the appropriate statistical test
  • Estimate the effect size
  • Calculate the sample size
  • Write the power analysis plan
Develop a presentation or infographic on the ethical implications of power and sample size
Developing a presentation or infographic on the ethical implications of power and sample size will help you to critically evaluate the ethical issues surrounding this topic and communicate your findings to others.
Show steps
  • Research the ethical implications of power and sample size
  • Develop a presentation or infographic
  • Present your work to others

Career center

Learners who complete Power and Sample Size for Multilevel and Longitudinal Study Designs will develop knowledge and skills that may be useful to these careers:
Statistician
Statisticians use statistical methods to collect, analyze, interpret, and present data. This course can help Statisticians develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Data Analyst
Data Analysts use data to solve problems and make decisions. This course can help Data Analysts develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Policy Analyst
Policy Analysts develop and evaluate policies. This course can help Policy Analysts develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Research Scientist
Research Scientists conduct research to advance scientific knowledge. This course can help Research Scientists develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Program Manager
Program Managers plan and manage research programs. This course can help Program Managers develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Research Associate
Research Associates conduct research under the supervision of a senior researcher. This course can help Research Associates develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Quantitative Researcher
Quantitative Researchers use quantitative methods to collect and analyze data. This course can help Quantitative Researchers develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Social Scientist
Social Scientists study human behavior and society. This course can help Social Scientists develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Survey Researcher
Survey Researchers design, conduct, and analyze surveys to collect data on public opinion, consumer behavior, and other topics. This course can help Survey Researchers develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Principal Investigator
Principal Investigators lead research projects. This course can help Principal Investigators develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Postdoctoral Researcher
Postdoctoral Researchers conduct research after completing their PhDs. This course can help Postdoctoral Researchers develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Associate Professor
Associate Professors teach and conduct research at universities. This course can help Associate Professors develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Assistant Professor
Assistant Professors teach and conduct research at universities. This course can help Assistant Professors develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Health Scientist
Health Scientists conduct research to improve the health of populations. This course can help Health Scientists develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.
Full Professor
Full Professors teach and conduct research at universities. This course can help Full Professors develop the skills needed to design and conduct longitudinal and multilevel studies. The course also covers power and sample size methods, which are essential for ensuring that studies have the statistical power to detect meaningful effects.

Reading list

We've selected 12 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Power and Sample Size for Multilevel and Longitudinal Study Designs.
A comprehensive guide to power analysis and sample size determination for a wide range of research designs, including multilevel and longitudinal studies.
A classic textbook on longitudinal data analysis, covering a wide range of topics, including linear mixed models, generalized estimating equations, and survival analysis.
Provides a clear and concise introduction to power analysis for experimental research, covering the basics of power analysis, including effect size, sample size, and statistical power.
A practical guide to longitudinal data analysis, covering a wide range of topics, including linear mixed models, generalized estimating equations, and survival analysis.
A collection of essays on longitudinal studies, covering a wide range of topics, including design, analysis, and interpretation.
A classic textbook on statistical power analysis, providing a clear and concise introduction to the concepts and methods of power analysis.
A comprehensive guide to statistical inference, covering a wide range of topics, including hypothesis testing, confidence intervals, and regression analysis.
Focuses on sample size calculations for clinical research studies, but the methods can be applied to other types of research as well.
This handbook provides a comprehensive overview of research synthesis and meta-analysis, including chapters on power analysis and sample size.
Practical guide to power and sample size calculations for clinical trials.
Provides a comprehensive overview of statistical power analysis and design.

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