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<huge>Practical Statistics for Educators</huge> edited and maintained by Frank LaBanca, EdD
Philosophy
Quantitative statistical analyses can be intimidating for many educators pursing an advanced academic degree. The thought of computational math can sometimes trigger unwarranted fears.
Here, we approach statistics from a straightforward conceptually-based perspective. Our goal is to collaborate and provide insight for statistics that make them meaningful tools in the educational arena.
Each "module" corresponds with the topics presented each week, and will expand as the course progresses. A topical outline can be found @ [1]
Comments and edits are welcome and encouraged! Please give yourself credit as you contribute. At the end of a section you insert please add the following in italics: contributed by <your name> If you are modifying content, add the following under the contribution line: modified by <your name> We are glad to accept as many modifications as necessary to give the most meaning to each section. As we asynchronously socially construct knowledge together, we can recognize the accomplishments and contributions of each writer.
contributed by Frank LaBanca, EdD
Contributions
Our contributors contributions here.
Please submit your contribution at [2]
Modules
1.1 The Greek Alphabet and its significance in statistics
1.2 An introduction to probability PowerPoint @[3]
2.1 Types of Data
2.2 Visualizing Data
2.3 Visually representing data PowerPoint @ [4]
2.3.1 Table 2 from LaBanca dissertation @ [5]
2.3.2 Cool graph of movie box office from NY Times [6]
2.3.4 Histograms
2.3.5 Scatterplots YouTube @ [7]
2.5 Survey of Attitudes Toward Statistics (SATS) Data Set @ [8]
3.1 Central Tendency
3.1.1 Central Tendency and Normal Distribution PowerPoint @ [9]
3.1.2 Central Tendency YouTube @ [10]
3.2.1 The Box Plot
3.4 z-scores
4.1 Percentile Rank 4.1.1 Areas under the standard normal curve for z values @ [11]
4.1.2 z scores corresponding to divisions of the area under the normal curve @ [12]
4.2 Conversion of data PowerPoint @ [13]
4.2.1 Descriptive analysis of USRT data @ [14]
4.3 Normal Curve Equivalent scores
4.3 Standard Error of Measurement
4.4 z score machine @ [15]
5.1 Pearson r
5.2 Rules of thumb for interpreting the size of a correlation coefficient
5.3 Critical values for the correlation coefficient @ [16]
5.4 Spearman rho
5.5 Correlation PowerPoint @ [17]
5.6 Writing samples for correlations
6.1 Inferential Statistics Definition
6.2 Sampling
6.4 t test PowerPoint @ [18]
6.5 Sample data set @ [19]
6.6 Critical values for t @ [20]
7.1 Effect size
7.1.1 Effect size calculator @ http://www.campbellcollaboration.org/resources/effect_size_input.php
7.1.2 Rules of thumb for interpreting effect sizes
7.2 Effect size PowerPoint @ [21]
7.4 Hypothesis testing PowerPoint @ [22]
7.5.1 Hypothesis testing template for a correlation @ [23]
7.5.2 Hypothesis testing template for a t test @ [24]
8.2 Type I and Type II Errors PowerPoint @ [25]
8.3 Levene's p versus the test statistic p
8.5 ANOVA PowerPoint @ [26]
8.6 ANOVA Case study
8.7 Critical values for the F statistic @ [27]
8.7 Rules of thumb for interpreting effect sizes of ANOVAs
9.1 Post Hoc test PowerPoint @ [28]
9.3 Hypothesis testing template for ANOVA @ [29]
10.1 Chi square
10.2 Example for calculating chi square
10.3 Critical values for chi square @ [30]
10.4 Chi square analysis description/sample writing
10.5 Chi square PowerPoint @ [31]
11.1 Beyond the ANOVA
11.2 Beyond ANOVA PowerPoint @ [32]
11.3 2-way ANOVA PowerPoint @ [33]
11.4 2-way ANOVA template @ [34]
12.1 MANOVA
12.2 Homogeneity vs Homoscedacity (Levene vs Box's M)
12.3 Post Hoc ANOVAs for MANOVA (univariate)
12.4 Post Hoc Discriminant Analysis (multivariate)
12.5 Covariates
12.6 MANCOVA
13.1 Multiple Linear Regression
14.1 Internal Consistency[35]
14.2 Cronbach's Alpha[36]
Applied Research Designs
15.1 Instrumentation
15.2 Limitations
15.3 Practice determining the stat