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Activity-Based Statistics, 2nd Edition Student Guide
Richard L. Scheaffer (Author), Ann E. Watkins (Author), Jeffrey Witmer (Author), Mrudulla Gnanadesikan (Author), Tim Erickson (Revised by)
9780470412091, Wiley
Paperback / softback, published 14 July 2008
274 pages
25.4 x 20.3 x 2.5 cm, 0.454 kg
Activity-Based Statistics helps build real statistical understanding through a set of innovative hands-on activities that can be used each day in conjunction with other texts. The second edition continues to emphasize discovery by motivating students to apply the skills they have learned to discover the everyday relevance of statistics. There are over 45 activities and five long-term projects that have been updated and extended to encourage students to experience statistics in context. While the second edition includes updated technology extensions for Fathom, technology is used throughout the book to extend activities and is not required to complete them.
Preface. To the Student. Acknowledgments. I. EXPLORING DATA. A Living Histogram. How to build a histogram out of people. Getting to Know the Class. Surveying the class. Exploratory data analysis. Displaying categorical and A Living Box Plot. How to construct a box-and-whisker plot with people. Shape, center, and spread. V Is for Variation: How Far Are You from the Mean? Measuring variability in data. Matching Plots to Variables. Connecting our knowledge of real-life distributions to their graphs. Matching Statistics to Plots. Matching summary statistics to graphs of distributions. How the mean can differ Variation in Measurement. Collecting measurement data and looking at its distribution. Measurement Bias. Experiencing measurement bias. Let Us Count. Variation due to the process of measurement. Matching Descriptions to Scatter Plots. Making the correspondence between scatter plots and statistics (regression line The Regression Effect. Find out about the regression effect. Leonardo's Model Bodies. Looking at correlation between the sizes of different body parts. Relating to Correlation. How the correlation coefficient from a sample varies about the true population Models, Models, Models . . . . Modeling time series data with lines. Breaking the time series into two pieces. Relationships between categorical variables. Association in two-way tables. The relationship between ratings and ranks. II. PLANNING A STUDY. Random Rectangles. Sampling bias. The importance of random sampling. The Rating Game. Analyzing ratings that are results from a questionnaire you design. Stringing Students Along. Learning about selection bias. Gummy Bears in Space. Factorial designs and interaction. Controlling variables. Funnel Swirling. Experimental design, particularly factorial design.Variability in an experiment. Jumping Frogs. Experiments in a factorial situation. Estimating the effects of each factor and of How to Ask Questions: Designing a Survey How the way a question is worded can affect the outcome of a survey. III. ANTICIPATING PATTERNS. What Is Random Behavior? Gambler's fallacy. It’s hard to predict short-term random behavior. The Law of Averages. What is the law of averages? How probability helps us predict in the long term. Streaky Behavior. Runs in Bernoulli trials. Randomness is streakier than we think. Counting Successes. How to create simulations to study problems about the number of successes in Waiting for Sammy Sosa. The geometric, or waiting-time, distribution. The Lazy Student. What happens to the spread when you add random variables. What's the Chance? Dependent and independent trials. Spinning Pennies. Sampling distributions. Distribution of sample proportions where p 0.5. Cents and the Central Limit Theorem. How the sampling distribution of the mean of a nonnormal distribution looks How an estimate (for example, of a mean) based on a sample differs from the How Accurate Are the Polls? How an estimate of a proportion differs from the population value. How the IV. STATISTICAL INFERENCE. How Many Tanks? Estimating a population from serial numbers. Unbiased estimators. Estimating the Total of a Restaurant Bill. Sources of bias in estimation. Compensating for bias. What Is a Confidence Interval Anyway? Explaining the confidence interval as the range of plausible population values. Confidence Intervals for the Proportion of Even Digits. The meaning of the confidence level.What affects whether 95% of the confidence intervals contain the true value. Capture/Recapture. Estimating population size using a capture/recapture technique. How to Ask Sensitive Questions. Randomized response sampling. Using probability techniques to disguise survey Estimating a Total. It is not always clear how to sample to get the best estimate. The Bootstrap. Creating an interval estimate for statistics when the traditional confidence Statistical Evidence of Discrimination. Using the randomization test to show that variables are associated. How Typical Are Our Households’ Ages? The Chi-Square Test Using chi-square to show that (binned) age distributions are different. Coins on Edge. The power of a hypothesis test increases as the sample size increases. V. PROJECTS. Theme: Exploration of Data and Improvement in Quality. Application: Improved Payment Processing in a Utilities Firm. Theme: Sample Survey. Application 1: A Typical Election Poll. Application 2: The Nielsens. Theme: Experiment. Application: Does Aspirin Help Prevent Heart Attacks? The Physicians' Health Study. Theme: Modeling. Application: Body Composition. References. Index.
quantitative data.
from the median.
and r).
coefficient.
Predictable Pairs.
Ratings and Ranks.
the interaction.
repetitions of an event with a known probability.
normal.
Sampling Error and Estimation.
population value.
spread of sampling distributions defines a margin of sampling error.
answers and preserve confidentiality.
interval may be inappropriate.
Subject Areas: Mathematics [PB]
