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Statistics in Kinesiology - William J. Vincent, Joseph P. Weir

Statistics in Kinesiology

Buch | Hardcover
392 Seiten
2012 | Fourth Edition
Human Kinetics (Verlag)
978-1-4504-0254-5 (ISBN)
CHF 81,95 inkl. MwSt
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Statistics in Kinesiology, Fourth Edition, provides an introduction to basic statistical concepts with an emphasis on those commonly used in kinesiology. Examples drawn from kinesiology disciplines help students understand the techniques and how to use them to answer questions in their chosen fields.
The only statistics text currently available specifically for kinesiology majors, Statistics in Kinesiology, Fourth Edition, provides an accessible introduction to statistics concepts and techniques and their applications to kinesiology-related fields. Students will learn to use statistical tools to analyze quantitative data and then apply that knowledge to common questions and problems they will encounter as they continue their studies.

The fourth edition has been fully updated with new content that reflects the changing face of the kinesiology discipline, including the following:

• A new chapter on clinical measures, including information on relative risk, odds ratios, and diagnostic testing, that will be especially pertinent to students in athletic training, physical therapy, and other fields dealing with clinical or rehabilitation populations

• More detailed coverage of analysis of covariance (ANCOVA), which is becoming the technique of choice for analyzing pretest–posttest control group design

• New material on statistical inference and correlations, including information on hypothesis testing, types of error, confidence intervals, and partial correlations

• Additional information on the quantification of reliability and its applications in kinesiology

Statistics in Kinesiology, Fourth Edition, begins with a thorough introduction to basic concepts such as measurement and research; organizing and displaying data; percentiles; mode, median, and mean; and measures of variability. The text then explores more advanced topics, including correlation and regression, t tests, analysis of variance (ANOVA), and analysis of nonparametric data. While the book offers an overview of the most important statistical concepts and techniques, the emphasis remains on those commonly used concepts in kinesiology disciplines, such as repeated measures ANOVA and the interpretation of interactions in factorial ANOVAs.

The fourth edition features extensive problem sets that will help students begin to calculate and interpret data. To enhance learning, students are encouraged to practice the calculations manually, but knowledge of advanced mathematics is not required. The examples given involve only basic algebra skills. Information on computer-based application is also provided throughout the book. In becoming familiar with the mathematical formulas used by software programs, students will learn to critically evaluate computer results and interpret data with greater confidence and ease.

In updating this text, the authors have been careful to retain the features that have made past editions such a success. Examples drawn from exercise physiology, biomechanics, physical education, and physical therapy help students relate to how the techniques are used and how those techniques allow them to answer questions in their chosen fields. The problem sets are designed to help students interact more fully with the content, thereby aiding in their comprehension of concepts and techniques. Answers for each of the problem sets are located in the back of the text and give students the opportunity to check their work as they progress. Chapter summaries and key words lists identify content that students should carefully review.

With Statistics in Kinesiology, Fourth Edition, students will gain a solid understanding of the statistical techniques used in physical activity fields. The book’s practical approach, based on the authors’ more than 50 years of combined experience in teaching statistics, will make it easy for students to learn these important, but often intimidating, concepts.

William J. Vincent, EdD, is currently an adjunct professor and is the former director of the general education wellness program in the department of exercise sciences at Brigham Young University in Provo, Utah. He is professor emeritus and former chair of the department of kinesiology at California State University at Northridge. He was employed at CSUN for 39 years and taught statistics and measurement theory for 35 of those years. In 1995 he received the University Distinguished Teaching Award. Dr. Vincent has been a member of the American Alliance for Health, Physical Education, Recreation and Dance since 1964. In 2007, he received the AAHPERD National Honor Award for distinguished service to the profession. He has served as the president of the Southwest District of AAHPERD and was a member of the AAHPERD Board of Governors from 1993 to 1995. In 1988 he was named the Southwest District Scholar and delivered the keynote address titled "From Means to Manova" at the 1989 convention. Dr. Vincent is the author or coauthor of 4 books and more than 70 professional articles. Fifty-one of those articles appeared in refereed journals, including Research Quarterly for Exercise and Sport, the International Journal of Sports Medicine, and the Journal of Athletic Training. He has a bachelor’s degree in physical education (pedagogy), a master’s degree in physical education (exercise physiology), and a doctorate in educational psychology (perception and learning), all from the University of California at Los Angeles. Dr. Vincent and his wife, Diana, live in Lindon, Utah, and have 6 children and 20 grandchildren. In his free time, Dr. Vincent enjoys camping, snow skiing and water skiing, conducting genealogical research, and reading. Joseph P. Weir, PhD, is a professor in the doctor of physical therapy program at Des Moines University in Iowa. He earned his doctorate in exercise physiology from the University of Nebraska at Lincoln. Dr. Weir is a fellow of both the American College of Sports Medicine (ACSM) and the National Strength and Conditioning Association (NSCA). He was given the NSCA President’s Award in 2007 and its William J. Kraemer Outstanding Sport Scientist Award in 2006. He served as president of the National Strength and Conditioning Association Foundation from 2006 to 2009, and he was cochair of the ACSM’s Biostatistics Interest Group from 2001 to 2003. Dr. Weir is the associate editor of the Journal of Strength and Conditioning Research, and he is a member of the editorial board of Medicine and Science in Sports and Exercise. He is the author of numerous research articles, which have appeared in journals including European Journal of Applied Physiology, Physiological Measurement, American Journal of Physiology, and the Journal of Orthopaedic and Sports Physical Therapy. He is coauthor of Physical Fitness Laboratories on a Budget, and he has contributed chapters to seven texts, including NSCA’s Essentials of Personal Training. Dr. Weir is originally from Glennallen, Alaska. He and his wife, Loree, live near Des Moines, Iowa, and have three children. Dr. Weir is an avid motorcyclist and fan of University of Nebraska football.

Chapter 1. Measurement, Statistics, and Research

What Is Measurement?

Process of Measurement

Variables and Constants

Research Design and Statistical Analysis

Statistical Inference

Summary

Problems to Solve

Key Words

Chapter 2. Organizing and Displaying Data

Organizing Data

Displaying Data

Summary

Problems to Solve

Key Words

Chapter 3. Percentiles

Common Percentile Divisions

Calculations Using Percentiles

Summary

Problems to Solve

Key Words

Chapter 4. Measures of Central Tendency

Mode

Median

Mean

Relationships Among the Mode, Median, and Mean

Summary

Problems to Solve

Key Words

Chapter 5. Measures of Variability

Range

Interquartile Range

Variance

Standard Deviation

Calculating Standard Deviation for a Sample

Coefficient of Variation

Standard Deviation and Normal Distribution

Summary

Problems to Solve

Key Words

Chapter 6. The Normal Curve

Z Scores

Standard Scores

Probability and Odds

Calculating Skewness and Kurtosis

Summary

Problems to Solve

Key Words

Chapter 7. Fundamentals of Statistical Inference

Predicting Population Parameters Using Statistical Inference

Estimating Sampling Error

Levels of Confidence, Confidence Intervals, and Probability of Error

An Example Using Statistical Inference

Statistical Hypothesis Testing

Type I and Type II Error

Degrees of Freedom

Living With Uncertainty

Two- and One-Tailed Tests

Applying Confidence Intervals

Summary

Problems to Solve

Key Words

Chapter 8. Correlation and Bivariate Regression

Correlation

Calculating the Correlation Coefficient

Bivariate Regression

Homoscedasticity

Summary

Problems to Solve

Key Words

Chapter 9. Multiple Correlation and Multiple Regression

Multiple Correlation

Partial Correlation

Multiple Regression

Problems to Solve

Key Terms

Chapter 10. The t Test: Comparing Means From Two Sets of Data

The t Tests

Types of t Tests

Magnitude of the Difference (Size of Effect)

Determining Power and Sample Size

The t Test for Proportions

Summary

Problems to Solve

Key Words

Chapter 11. Simple Analysis of Variance: Comparing Means Among Three or More Sets of Data

Assumptions in ANOVA

Sources of Variance

Calculating F

Determining the Significance of F

Post Hoc Tests

Magnitude of the Treatment (Size of Effect)

Summary

Problems to Solve

Key Words

Chapter 12. Analysis of Variance With Repeated Measures

Assumptions in Repeated Measures ANOVA

Calculating Repeated Measures ANOVA

Correcting for Violations of the Assumption of Sphericity

Post Hoc Tests

Interpreting the Results

Summary

Problems to Solve

Key Words

Chapter 13. Quantifying Reliability

Intraclass Correlation Coefficient

Standard Error of Measurement

Summary

Problems to Solve

Key Words

Chapter 14. Factorial Analysis of Variance

A Between–Between Example

A Between–Within Example

A Within–Within Example

Summary

Problems to Solve

Key Words

Chapter 15. Analysis of Covariance

Relationship Between ANOVA and Regression

ANCOVA and Statistical Power

Assumptions in ANCOVA

The Pretest–Posttest Control Group Design

Pairwise Comparisons

Summary

Problems to Solve

Key Words

Chapter 16. Analysis of Nonparametric Data

Chi-Square (Single Classification)

Chi-Square (Two or More Classifications)

Rank Order Correlation

Mann-Whitney U Test

Kruskal-Wallis ANOVA for Ranked Data

Friedman’s Two-Way ANOVA by Ranks

Summary

Problems to Solve

Key Words

Chapter 17. Clinical Measures of Association

Relative Risk

Odds Ratio

Diagnostic Testing

Summary

Problems to Solve

Key Words

Chapter 18. Advanced Statistical Procedures

Meta-Analysis

Multiple Analysis of Variance

Factor Analysis

Discriminant Analysis

Summary

Problems to Solve

Key Words

Zusatzinfo 6
Verlagsort Champaign, IL
Sprache englisch
Maße 152 x 229 mm
Gewicht 771 g
Themenwelt Sachbuch/Ratgeber Gesundheit / Leben / Psychologie Alternative Heilverfahren
Mathematik / Informatik Mathematik Statistik
Studium 1. Studienabschnitt (Vorklinik) Physiologie
Sozialwissenschaften Pädagogik
ISBN-10 1-4504-0254-2 / 1450402542
ISBN-13 978-1-4504-0254-5 / 9781450402545
Zustand Neuware
Informationen gemäß Produktsicherheitsverordnung (GPSR)
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