Achieve Online Homework

• Over 3,000 homework questions of varying difficulty, Bloom’s level, and question type. Every homework question includes a hint, answer-specific feedback, and a fully worked solution. Question types in Achieve include
• Multiple choice
• Ranking
• Sorting
• Numeric entry
• Multi-part questions
• Questions with algorithmically regenerating values
• LearningCurve adaptive quizzing puts the concept of "testing to learn" into action, motivating students to engage with the text's content to identify areas of proficiency. Easy-to-use reporting tools help teachers pinpoint areas to focus on in class.
• A mobile, interactive e-book, powered by VitalSource, allows students to highlight and take notes, print select pages, and have the text read aloud to them.
• R Markdown files demonstrate how to solve selected data-driven exercises from the book using R.

 
Statistical software options

• CrunchIt!, Macmillan’s proprietary online statistical software powered by R, handles every computation and graphing function an introductory statistics student needs. CrunchIt! is preloaded with data sets, and it allows editing and importing additional data.
• Students also receive access to JMP Student Edition (developed by SAS). With the student edition of JMP, students handle large data, visualizations, and analysis for which the professional version is renowned. Additionally, text-specific data sets are included for download.
• For other statistical software, Achieve includes data sets, including those for
• Excel
• Minitab
• R & RCmdr
• SPSS
• TI Calculators
• Mac-text & PC-text
• CSV file export

In the text
Flexibility Within and Between Units

• The units and chapters are arranged to promote flexibility regarding order and depth in which topics are covered. Within a unit, some instructors may choose to “splice” in an additional topic when related ideas are first introduced. For example, Section 5.7 in the first ANOVA chapter introduces techniques for conducting pairwise comparisons with one-way ANOVA using Fisher’s LSD method. Instructors who prefer a more thorough discussion of pairwise comparison issues at this point, including alternate techniques such as the Bonferroni adjustment or Tukey’s HSD method, can proceed to present those ideas from Topic 8.2. Other instructors might want to move immediately to two-way ANOVA in Chapter 6 and then study pairwise procedures later.
• Instructors can also adjust the order of topics between the units. For example, some might prefer to consider logistic regression models (Unit C) before studying ANOVA models (Unit B). Others might choose to study all three types of models in the “simple setting” (Chapters 1–2, 5, 9), and then return to consider each type of model with multiple predictors. One could also move to the ANOVA material in Unit B directly after starting with a review of the two-sample t-test for means in Chapter 0 and simple linear regression in Chapters 1 and 2.

Exercises

• Developing skills of statistical modeling requires considerable practice working with real data. Homework exercises are an important component of this book and appear at the end of each chapter. These exercises are grouped into four categories:
• Conceptual exercises. These questions are brief and require minimal (if any) calculations. They give students practice with applying basic terminology and assess students’ understanding of concepts introduced in the chapter.
• Guided exercises. These exercises ask students to perform various stages of a modeling analysis process by providing specific prompts for the individual steps.
• Open-ended exercises. These exercises ask for more complete analyses and reporting of conclusions, without much or any step-by-step direction.
• Supplemental exercises. Topics for these exercises go somewhat beyond the scope of the material covered in the chapter.
• Exercises in the Additional Topics chapters (4, 8, and 11) are grouped to align with the independent topics in those chapters.