1. Tables & Graphs Outline 1. Tables as representations of data 2. Graphs *Definition *Components 3. Types of graph *Bar *Line *Frequency distribution *Scattergram

2. Tables & Graphs Tables present data summarize data (no need to look at each individual data point). show numerical relationships in a matrix. advantage – effect sizes computable disadvantage – patterns in data more difficult to see than with graphs

3. Tables & Graphs An example Stimulus size SmallMediumLarge Unfam550460420 Familiar460420400 90 40 20 Effect sizes (msec) Reaction times in msec

4. Tables & Graphs 2. Graphs – Definitions Graphs are visual representations of a set of data points. Most graphs are two- dimensional, using Cartesian co-ordinate system (X and Y). Data are presented as a function relating X to Y.

5. Tables & Graphs 2. Graphs – Components X-axis shows independent variable. Y-axis shows dependent variable X Y Origin: X = 0 and Y = 0

6. Tables & Graphs 2. Graphs – Components The slope of the function indicates how Y changes as X changes across a set of observations X Y

7. Tables & Graphs 2. Graphs – Components The intercept of the function indicates the value of Y when X = 0 X Y

8. Tables & Graphs 3. Types of graphs A.Bar graphs. B.Line graphs C.Frequency distributions D.Scattergrams

9. Tables & Graphs 3a – Bar Graphs Bar graphs – Data represented as bars – height indicates D.V. – location along X axis indicates I.V. – Use when data are categorical rather than quantitative. Example on next slide.

10. Tables & Graphs # pairs of shoes owned Women Men Graph shows average # for each of our samples – one of women and one of men

11. Tables & Graphs 3b – Line graphs Show D.V. as a function of I.V. Points show actual data Lines connecting points show interpolations Use when response varies continuously with I.V. – but be careful about interpolation and extrapolation.

12. Tables & Graphs 3b – Line graphs Interpolation – inferring the Y value at an X between two known X values X Y

13. Tables & Graphs 3b – Line graphs Extrapolation – inferring the Y value at an X beyond the range of X values for which you have data X Y

14. Tables & Graphs 3b – Line Graphs Spatial relationships illustrate quantitative relationships –Slope –Y-intercept

15. Tables & Graphs 3b – Line Graphs Note the equation for a line: Y = ax + b a = slope and b = intercept.

16. Tables & Graphs Slope the rate of change in X with change in Y (or vice-versa). tells us how much change on Y scale is associated with a one-unit change on X slope can be positive or negative

17. Y 654321654321 Positive slope – as Y gets Negative slope – as Y gets larger, X gets larger. larger, X gets smaller. Y 654321654321 X

18. Y 654321654321 X Zero slope – no relation between X and Y.

19. Tables & Graphs Intercept the value of Y when X = 0, so that the line intercepts the Y axis. shows minimum (or maximum) value of Y

20. Y 654321654321 X Y-Intercept

21. Tables & Graphs 3b – Line Graphs Linear functions: –a unit change in X is associated with a unit change in Y. –e.g., for each dollar, you get one chocolate bar. Y 654321654321 X

22. Tables & Graphs 3b – Line Graphs Non-linear functions: –amount of change in Y for a unit change in X depends upon where you are on X scale. –e.g., the more chocolate bars you buy, the less each one costs.

23. The Yerkes-Dodson law relates arousal to stimulation – an example of a nonlinear function in Psychology Arousal Performance

24. Tables & Graphs 3c – Frequency Distributions Show frequency with which different observations happen Y axis = how many scores there are at each X value in the data set.

25. Tables & Graphs 3c. Frequency distributions Show how many scores occur in various ranges – e.g.: Range# of scores 1 – 35 4 – 68 7 – 912 10 – 129 13 – 154

26. Tables & Graphs Normal distributions Observations near average are common. Y-axis measures frequency with which scores are found Those at extremes are much less common

27. Tables & Graphs 3d - Scattergrams Show X-Y relation for individual cases That is, these show I.V. – D.V. relation for cases E.g., on next slide, we see relationship between IQ (Y axis) and spatial ability (X axis)

28. Spatial ability Intelligence test

29. Tables & Graphs 3e Importance of Tables and Graphs A good graph or table helps you understand your results. Similarly, a good graph or table helps you explain your results to someone else. Consider the following three ways of presenting roughly the same information:

30. Tables & Graphs “High frequency words are read faster than low frequency words, but the difference is greater if the words are irregular in spelling than if they are regular in spelling.”

31. Tables & Graphs HFLF IRR475600 125 REG450500 50 25100 IRR = irregularly spelled wordsHF = high frequency REG = regularly spelled wordsLF = low frequency Typical average reading times (msec)

32. Tables & Graphs HF LF IRR REG RT

33. Tables & Graphs Review Tables and graphs summarize data Tables allow quick computation of effect sizes Graphs use spatial relationships to show relationships among variables in the data Graphs show patterns in the data