Syllabus

BTS 510 Syllabus – Summer 2024

Intructor information

Course information

Learning goals

This course covers topics related to statistical analysis of experimental studies. Topics include using and manipulating datasets, plotting data, probability, estimation and uncertainty, and statistical methods for experimental designs, such as comparing 2 independent or dependent means, comparing 2 independent or dependent proportions, and controlling for multiple comparisons.

Learning objectives

  • Compare and contrast possible analysis options based on the experimental design and research question
  • Select the appropriate analysis approach for the research question
  • Analyze data with statistical methods appropriate to the research question
  • Create a written report of your findings
  • Make conclusions about your research question(s) based on those results

Course structure

Time and location

We will meet in-person on Thursday from 9am to 10:30am in G-511 Auditorium in PDC Picasso conference room in PDC.

Course format

This course takes place in a flipped, hybrid format. We will meet in person for 1 hour 30 minutes each week. This time will be spent on hands-on statistical programming in R. You will be responsible for completing course assignments such as videos and readings prior to class in order to be prepared to participate in the in-person meeting. You will also have assignments to complete after class.

Each week will follow a similar structure:

  • Monday: Lecture videos posted
  • Wednesday: Watch lecture and respond to survey by 8pm Wednesday
  • Thursday: In-person meeting to review material and work on applications
  • Sunday: Homework assignment due by end of day (midnight)

Software

We will be using R for this course. It’s ok if you don’t know how to use R (but also great if you do!). We’ll start from scratch in the first few weeks. I will provide information about the specific procedures you will need to know for this course.

  • R is free and open source and works on any platform (Windows, Mac, Unix)
    • Download R here
    • I also recommend using Rstudio, which can be downloaded here
    • If you use a Chromebook or tablet, you can use Rstudio via the cloud
      • I have not used this much, so I don’t know all its shortcomings
  • We’ll also be using Quarto
    • Publishing system based on markdown
    • Intersperse plain text and code
    • Output to convenient formats, like HTML, PDF, Word
    • Install Quarto

Assessments

Your work in this course will be assessed using a variety of methods.

Lecture videos (10%)

Watch the lecture video. Respond to the survey afterward with questions and comments.

Homework (60%)

There will be six (6) five (5) homework assignments. The assignments generally involve running analyses in R, interpreting output, and presenting the results.

Final project (30%)

You will pick one of the five special topics and write a summary of the topic, primarily using the listed readings. More details to come.

Tentative schedule

Find the tentative schedule here.

Grades

Grade Percentage
A+ >=97
A 93 - 96.99
A- 90 - 92.99
B+ 87 - 89.99
B 83 - 86.99
B- 80 - 82.99
C+ 77 - 79.99
C 70 - 76.99
D+ 65 - 69.99
D 60 - 64.99
F <= 59.99

Cedars-Sinai policies

Attendance

Attendance is not explicitly part of your grade in this course, but activities completed during the in-person portion of the course will be very helpful. If you need to miss class (such as for illness, religious event, professional activity, university-sanctioned event, or any other reason), please contact me to make any necessary arrangements.

Academic dishonesty and misconduct

Please refer to your policy handbook for a description of what constitutes academic dishonesty.

  • While you may work with other students on your homework assignments, I expect all students to complete and turn in their own work.