class: center, middle, inverse, title-slide # Psy 611: Data Analysis I --- ## Zoom, zoom Lots of advice and best practices posted on the [course website](../readings/PSY 611 Zoom Cheat Sheet.pdf). - Check your screen name is your preferred name. - Your microphone should be muted unless you are speaking. Consider keeping your camera on. Cameras that are on create a much better sense of community and collaboration. - Ask questions by "Raise your hand" (using the feature under Participants) or using the Chat feature. --- ## You are a scientist .pull-left[ <img src="images/descartes.jpg" width="100%" /> ] .pull-right[ <img src="images/Helmholtz_1848.jpg" width="200%" /> ] ??? **Descartes (1637)** -- doubt everything and then take as axiomatic only that which proved to be indubitable ("I think therefore I am") and also division between the mind and body. - Descartes was also a physicist and mathematician -- developed analytic geometry (Carteisan coordinates named after deCARTES) - hypothesized that that bodies were governed in mechanistic ways -- the brain is a complicated system of tubes and valves for shunting animal spirits into specific nerves and therby enacting specific actions (external pressure on sensing device = reflexes) and this work inspired what became modern day neuroscience. **Helmholz (1849)** -- developed tool to measure reaction time to fractions of seconds (galanometer, "stopwatch") - also invented ophthalmoscope, which examines the inside of the human eye - _also_ created the Helmholtz resonator, which identifies the various fequencies of complex sounds containing multiple tones - personally replicated experiments of other scientists to ensure accuracy --- ## Goals of this sequence - Develop the basic quantitative skills necessary to be a research scientist - Not all the skills you will need (not the only courses you need) - Foundations of statistics, methods, and data science - Contextualize those skills - Building a toolbox, not a cookbook - How can I use this? Under what circumstances? When should I not use this? .small[- Sequence - **611**: Tools of statistics - **612**: Building models - **613**: Taking it to the next level] --- ## Goals of this course - Conceptualize __statistics__ as a method for specifying and testing a model of how the world works - Execute and understand of the use and limitations of null hypothesis significance testing - (in labs) Wrangle, summarize, test, and display data using R --- ## Challenges - Many basic statistical tests were developed a century ago. - Developed for small samples and hand calculations. - Example: minimum sample size = 30 per cell. Why? -- - This class has variance. ??? We continue to build off of these tests today. For example, MLM is built off basics of regression and correlation. We need to understand these methods to move forward. But the world is changing rapidly. Heuristics don't apply, there are better ways to do things, and we've messed up these statistics a lot. We'll discuss what's often left out of most statistics courses. Goal: don't just do the test, understand what the test does, why you might want to use it, and how you can avoid abusing it --- ## Road map | Week(s) | Topics | |:-------:||:------| | 1-2 |Summarizing data | | 3-4 |Probability | | 5 |Sampling and making inferences about the unknown| | 6-9| Making a decision| |10| Evaluating that decision| --- ## My goals (practical) - Teach you the basics of statistics and R. - Challenge you -- this class is designed to push you to your personal limit and then just beyond. - If you feel like you're sailing through this class, come talk to me. - If you feel like you're drowning, come talk to me. - Create sitautions in which you can practice skills that will help throughout your career. - learning things on your own, asking for help, saying no, teaching others... - Give everyone an A. --- ## Format - Learn - Lectures - Labs - Readings - Practice - Weekly Quizzes (9 total) - Homework (3 total) - Demonstrate mastery - Oral exam - Make the most of remote learning - Journals (10 total) ??? There will be some overlap between the readings and lectures, and also between readings and lab. Sometimes there will be overlap between lab and lecture but not always. The goal of this term is to help give you the foundations you need in theory and in tools. We'll put them together more in 612. Quizzes are meant to test lecture and reading. Homework are meant to practice everything. Talk about quiz policy. Talk about homework policy. --- ## Materials - Everything is free and available online - Materials for this course: [uopsych.github.io/psy611](https://uopsych.github.io/psy611/) --- ## R and RMarkdown This course will use R and RStudio for all analyses. Why? - Statistical tool - Reproducibility - Workflow - Marketability If you want extra help, the library offers `R` workshops, as well as workshops on reproducibility (data management, database and spreadsheets, version control with Git, etc). The library also has R consultants (GEs) available during most work hours to help troubleshoot. [https://library.uoregon.edu/research-data-management/training-workshops](https://library.uoregon.edu/research-data-management/training-workshops) --- # Questions? For the rest of today: - some terminology - scales of measurement --- ## Kinds of statistics - Descriptive - Inferential ??? Which is more important? -- Neither Descriptive -- about the data Inferential -- about the world - assessing risk or uncertainty. How likely? --- ## Kinds of statistics - Exploratory - Confirmatory -- .center[Exploratory ---------------------------------------- Confirmatory] ??? Which is more important? -- Neither Exploratory -- I don't have a hypothesis or theory. I don't know what's going to happen Confirmatory -- if theory X is true, then data should look like Y Really more of a continuum --- ## Kinds of research - Experimental - Observational -- Typically we pair some kinds of statistical tests with experimental work and other kinds of tests with observational work. Examples? -- In reality, most statistical tests can be used with most kinds of research. It's not so much the kind of research that matters, but __which statistic helps to answer your question__ and __what types of variables do you have?__ - We'll discuss the first point throughout the course - Let's discuss variables now --- ## Scales of measurement Four scales - Nominal - Ordinal - Interval - Ratio --- ## Nominal - response options are groups - no specific order - example: What is your favorite fruit? Blueberries, apples, coconuts --- ## Ordinal - response options are ordered - no consistent distance between possible scores - example: List the following fruits in order of preference: peaches, grapes, raspberries --- ## Interval - response options are ordered - distance between response options is the same - no meaningful 0 - example: On a scale from 0-5, how much do you like bananas? --- ## Ratio - response options are ordered - distance between response options is the same - 0 indicates an _absence_ of something - example: how many times have you eaten watermelon in the last 6 months? --- ## Scales of measurement .pull-left[ - Nominal - Ordinal - Interval - Ratio] .pull-right[ **Why does this matter?** ] --- ## Scales of measurement .pull-left[ - Nominal - Ordinal - Interval - Ratio] .pull-right[ **Why does this matter?** - Different amounts of information ] --- ## Scales of measurement .pull-left[ - Nominal - Ordinal - Interval - Ratio] .pull-right[ **Why does this matter?** - Different amounts of information - Different mathematical properties - Example: If Bobby scores 3 and Megan scores 6, can we say Megan scored twice as high as Bobby? ] --- ## Scales of measurement .pull-left[ - Nominal - Ordinal - Interval - Ratio] .pull-right[ **What is this?** - "On a scale from 1 to 6, how much does the word *outgoing* describe you?"] --- ## Scales of measurement Two types - Categorical - Continuous --- ## Scales of measurement .pull-left[ - Nominal - Ordinal - Interval - Ratio ] .pull-right[ - Categorical - Continuous ] How do these two methods of describing scales match up? --- class: inverse ## Next time Measurement validity