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ASQ Quality Press - Mary McShane-Vaughn

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131 pages

English

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Probability is tough – even those fairly well versed in statistical analysis balk at the prospect of tackling it. Many probability concepts seem counterintuitive at first, and the successful student must in effect train him or herself to think in a totally new way. Mastery of probability takes a lot of time, and only comes from solving many, many problems.
The aim of this text and its companion, The Probability Workbook (coming soon), is to present the subject of probability as a tutor would. Probability concepts are explained in everyday language and worked examples are presented in abundance. In addition to paper-and-pencil solutions, solution strategies using Microsoft Excel functions are given. All mathematical symbols are explained, and the mathematical rigor is kept on an algebra level; calculus is avoided.
This book is written for quality practitioners who are currently performing statistical and probability analyses in their workplaces, and for those seeking to learn probability concepts for the American Society for Quality (ASQ) Certified Quality Engineer, Reliability Engineer, Six Sigma Green Belt, Black Belt, or Master Black Belt exams.

Sujets

Business

Qualité, hygiène, sécurité, environnement

Sciences & Techniques

Statistiques

Sciences formelles

Probabilité et statistiques

Sciences et techniques

Statistics

Probability

Mathematics

Probabilités et statistiques

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Publié par	ASQ Quality Press
Date de parution	18 janvier 2016
Nombre de lectures	0
EAN13	9781953079701
Langue	English

Informations légales : prix de location à la page 0,4950€. Cette information est donnée uniquement à titre indicatif conformément à la législation en vigueur.

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The Probability Handbook
Mary McShane-Vaughn
ASQ Quality Press
Milwaukee, Wisconsin
American Society for Quality, Quality Press, Milwaukee 53203
© 2016 by ASQ
All rights reserved.
Library of Congress Cataloging-in-Publication Data
Names: McShane-Vaughn, Mary, 1963– | American Society for Quality.
Title: The probability handbook / Mary McShane-Vaughn.
Description: Milwaukee, Wisconsin : ASQ Quality Press, 2015. | “American
Society for Quality.” | Includes bibliographical references and index.
Identifiers: LCCN 2015045483 | ISBN 9780873899222 (hardcover : alk. paper)
Subjects: LCSH: Probabilities—Popular works.
Classification: LCC QA273.15 .M44 2015 | DDC 519.2—dc23
LC record available at http://lccn.loc.gov/2015045483
No part of this book may be reproduced in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the publisher.
Acquisitions Editor: Matt Meinholz
Managing Editor: Paul Daniel O’Mara
Production Administrator: Randall Benson
ASQ Mission: The American Society for Quality advances individual, organizational, and community excellence worldwide through learning, quality improvement, and knowledge exchange.
Attention Bookstores, Wholesalers, Schools, and Corporations: ASQ Quality Press books, video, audio, and software are available at quantity discounts with bulk purchases for business, educational, or instructional use. For information, please contact ASQ Quality Press at 800-248-1946, or write to ASQ Quality Press, P.O. Box 3005, Milwaukee, WI 53201–3005.
To place orders or to request a free copy of the ASQ Quality Press Publications Catalog, visit our website at http://www.asq.org/quality-press .

For my husband, Jim, who walked into graduate orientation at Georgia Tech at exactly the same time that I did. What are the chances?
Preface
A s a graduate student, I worked in the statistics tutoring lab in the Industrial and Systems Engineering (ISyE) Department at Georgia Tech. The ISyE program at Georgia Tech is ranked number one in the country, 1 so it comes as no surprise that the undergraduate students were exceptionally bright and certainly very adept in math. Still, we got a lot of business in the tutoring lab. The funny thing is that students hardly ever came in to the lab for help with their statistics classes. Instead, most of the tutoring requests were for the probability course, a prerequisite for the statistics sequence.
In the intervening 20 years I’ve worked as a quality engineer, statistician, university professor, and Six Sigma training developer, and I’ve witnessed a similar phenomenon: even those fairly well versed in statistical analysis balk at the prospect of tackling probability. Granted, probability is tough. Many of the concepts seem counterintuitive at first, and the successful student must in effect train herself to think in a totally new way. It takes a lot of time, and mastery of probability only comes from solving many, many problems.
How, then, can probability be taught effectively? When I think back to my days spent in the tutoring lab, one barrier to student success stands out. The undergraduate probability textbook at Tech was a slim and elegantly written volume, but it made little sense to the students. As tutors, we reinterpreted the tidy mathematical exposition of the text into everyday words and solved example problem after example problem. Eventually, the engineering students caught on and were successful, in spite of their textbook.
Accordingly, the aim of this text and its companion, The Probability Workbook , is to present the subject of probability as a tutor would. Probability concepts are explained in everyday language and worked examples are presented in abundance. In addition to paper-and-pencil solutions, solution strategies using Microsoft Excel functions are given. All mathematical symbols are explained, and the mathematical rigor is kept on an algebra level; calculus is avoided.
This book is written for quality practitioners who are currently performing statistical and probability analyses in their workplaces, and for those seeking to learn probability concepts for the American Society for Quality (ASQ) Certified Quality Engineer, Reliability Engineer, Six Sigma Green Belt, Black Belt, or Master Black Belt exam.
Chapter 1 traces the origins of probability as an academic subject and highlights the pervasiveness of statistics and probability in today’s popular culture. Chapter 2 introduces the reader to counting techniques to determine how many ways particular outcomes can occur. Counting possible outcomes is a fundamental piece of probability calculations. In Chapter 3, we begin the hard and rewarding work of learning probability concepts and rules, including the concepts of mutual exclusivity, sampling with and without replacement, odds, conditional probability, and Bayes’ theorem. Seven detailed examples are included at the end of the chapter to help solidify your understanding. After studying the first three chapters and completing the practice problems included in the companion workbook, readers will be prepared to answer any number of probability questions, from picking socks out of a drawer, to selecting lottery numbers, to choosing colleagues for committees, to deciding whether a manufacturing lot should be shipped to the customer.
Chapter 4 introduces commonly used “named” discrete probability distributions: the discrete uniform, binomial, hypergeometric, geometric, negative binomial (also known as the Pascal), and Poisson. The formulas, parameters, and uses for each distribution are introduced, and worked examples are shown for each distribution type. Useful approximations among the distributions are also presented, and a summary of the distributions is tabulated at the end of the chapter.
Chapter 5 covers continuous probability distributions, among them the well-known normal (also known as the Gaussian), standard normal, Student’s t , F , chi-square, and Weibull distributions. Lesser known but useful and interesting distributions are also included in this chapter: the uniform, triangular, gamma, Erlang, exponential, Rayleigh, lognormal, beta, and Cauchy. In addition, key theorems such as the law of large numbers and Chebyshev’s inequality are presented and explained. At the end of the chapter, a summary of the distributions appears for quick reference. After studying the material in Chapters 4 and 5 and completing the practice problems in the companion workbook, the reader will be able to select the appropriate distribution for a wide range of scenarios, state the formulas for the mean and variance for various distributions, and correctly evaluate probability statements.
The appendices contain the distribution road map, a graphic of all the probability distributions presented in the text and how they are related. Probability tables for the binomial and Poisson distributions as well as cumulative probability tables for the binomial, Poisson, standard normal, Student’s t , chi-square, and F distributions are also provided.
As extensive as the list of rules, theorems, and distributions covered in the text happens to be, this book is by no means comprehensive! The distributions presented in the text were carefully chosen for their applicability to the types of problems that arise in the quality field. Univariate distributions not covered include the Laplace and extreme value distributions, as well as the Pearson series of distributions. There also exists a multitude of multivariate distributions in which arrays of random variables are modeled. These distributions include the Dirichlet, multivariate normal, Hotelling’s T 2 , and the Wishart and require a working knowledge of matrix algebra. To learn more about these distributions, you can consult a thicker and more densely written text!
Even though my outline was carefully crafted, I did experience scope creep in the writing process. Just as soon as I would finish one section, I would invariably have an idea in the shower of yet another formula, relationship, example, or interesting fact to add. Finishing the book was becoming a Sisyphean task. In order to send a completed manuscript to the publisher, I had to either stop showering or decide that, as it stood, the book more than covered what was necessary. To my family’s great relief, I chose the latter option.
It is my hope that as you read this book you underline new terms, highlight formulas, write in its margins, and refer to it often. It would be gratifying to see dog-eared copies of The Probability Handbook on office shelves or opened up during certification exams.
Feel free to contact me with comments or questions about the book or to learn more about courses based on the book. Visit http://www.6sigma.university .
Endnote
1. See https://www.isye.gatech.edu/news/2015-us-news-world-report-isye-undergraduate-program-maintains-no-1-ranking .
Acknowledgments
I ’d like to thank the staff at ASQ’s Quality Press for their patience and support during the writing process and in the production stages. I’d also like to thank the copyeditor at Kinetic Publishing Services, LLC, for making the paragraphs read so smoothly.
In addition, I am extremely grateful to the reviewers for their careful reading and excellent suggestions, all done on a tight deadline. Dr. Sandy Furterer, Dr. Abbe Herzig, and Dr. Bindu Viswanathan, I am proud to count you among my colleagues and my friends. Your work has made this text an infinitely better and more readable book.

1
Introduction
T he lottery has been characterized as a tax on the mathematically naive. Consider a player who uses a “system” to carefully curate his picks based on his anniversary date,