BUSINESS STATISTICS
A FIRST COURSE
5e
David M. Levine
Timothy C. Krehbiel Mark L. Berenson
Upper Saddle River, New Jersey07458
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Copyright © 2008 by Pearson Education, Inc., Upper Saddle River, New Jersey, 07458.
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/ 10987654321ISBN-13: 978-0-13-606581-4
ISBN-10: 0-13-606581-3
Table of Contents
Preface / viiKeywords Index / ix
Chapter 1 / Introduction and Data Collection / 1
Chapter 2 / Presenting Data in Tables and Charts / 29
Chapter 3 / Numerical Descriptive Measures / 74
Chapter 4 / Basic Probability / 101
Chapter 5 / Discrete Probability Distributions / 136
Chapter 6 / The Normal Distribution / 162
Chapter 7 / Sampling and Sampling Distributions / 188
Chapter 8 / Confidence Interval Estimation / 225
Chapter 9 / Fundamentals of Hypothesis Testing: One-Sample Tests / 265
Chapter 10 / Two-Sample Tests and One-Way ANOVA / 300
Chapter 11 / Chi-Square Tests / 365
Chapter 12 / Simple Linear Regression / 393
Chapter 13 / Multiple Regression / 443
Chapter 14 / Statistical Applications in Quality and Production Management / 500
Preface
The Test Item File contains a variety of multiple-choice, true-false, problem and fill-in questions based on the definitions, concepts, and ideas developed in each chapter. In addition, numerical problems and Microsoft Excel computer output problems are also given with solutions provided in multiple-choice, true-false, problem and fill-in format.
The Test Item File is intended to assist instructors in preparing examinations. The questions included herein highlight the key topics covered throughout each chapter. Keywords are available after each question to help instructors locate questions on a specific topic or concept. Explanation is provided when the rationale of the correct answer to a difficult question is rather obscure. The format for the Test Item File will facilitate grading and should be helpful to instructors who teach very large sections.
The intended difficulty level (easy, moderate, difficult) of each question in the Test Item File is stated in order to facilitate test item selection by instructors wishing to create specific types of exams. However, some words of caution must be given. The classification of question difficulty level is very subjective and each question should be evaluated based on the emphasis the particular topic was given in class and how much emphasis is to be given to numerical results obtained by calculator rather than computerized results obtained from Microsoft Excel. As an operational definition that is used here, items are classified as easy if they pertain directly to definitions and fundamental concepts. Test items are classified as moderate if they require some numerical calculations with more than a minimal number of steps or if they require a broader understanding of the topic. Test items that are classified as difficult are done so because of the level of rigor of the subject, the length of the narrative, the amount of effort required for solution, or for responses that require more thought and analysis.
Instructors are also advised that all answers in the Test Item File are computed using Microsoft Excel or PHStat with no rounding involved in the intermediate steps. If students use rounding with formulae and a calculator, their answers might be different from those provided in the answer keys. Likewise, if students use the statistical tables at the end of the book instead of Microsoft Excel or PHStat, their answers might also differ from those provided in the answer keys due to rounding. Whenever possible, we provide answers obtained using both Microsoft Excel/PHStat and the statistical tables if they are different.
This Test Item File and others that are similar suffer from one major weakness. They do not permit an evaluation of the students’ written communication skill. The authors highly recommend that, if possible, instructors who use this Test Item File supplement it with at least one short essay type question so that an assessment can be made of the students’ understanding of concepts as well as how they can make connections across various topics.
The following tabular display is a breakdown of the number of questions in each chapter by type.
Chapter / Multiple Choice / True/False / Fill in / Problem / Total1 / 48 / 42 / 40 / 0 / 130
2 / 51 / 32 / 83 / 18 / 184
3 / 27 / 33 / 31 / 38 / 129
4 / 60 / 19 / 38 / 37 / 154
5 / 21 / 13 / 47 / 41 / 122
6 / 16 / 14 / 43 / 48 / 121
7 / 44 / 65 / 39 / 31 / 179
8 / 29 / 105 / 27 / 21 / 182
9 / 70 / 57 / 16 / 7 / 150
10 / 109 / 51 / 57 / 53 / 270
11 / 45 / 31 / 31 / 6 / 113
12 / 78 / 33 / 59 / 28 / 198
13 / 102 / 51 / 42 / 18 / 213
14 / 44 / 24 / 35 / 10 / 113
Total / 744 / 582 / 588 / 368 / 2282
Keywords Index
1
A
a priori classical probability
A2 factor
addition rule
adjusted coefficient of determination
adjusted r-square
assumption
autocorrelation
B
bar chart
Bayes' theorem
beta-risk
binomial distribution
box-and-whisker plot
C
categorical random variable
center line
central limit theorem
Chebyshev rule
chi-square test
Chi-square test for difference in proportions
Chi-square test of independence
chunk sample
class boundaries
class interval
class midpoint
cluster sample
coefficient of correlation
coefficient of determination
coefficient of multiple determination
coefficient of variation
collective exhaustive
column percentages
combination
common causes of variation
complement
completely randomized design
conclusion
conditional probability
confidence coefficient
confidence interval
contingency table
continuity adjustment
continuous random variable
control chart
control limit
convenience sample
counting rule
coverage error
critical value
cumulative frequency distribution
cumulative percentage distribution
cumulative percentage polygon (ogive)
cumulative relative frequency
D
d2 factor
D3 factor
D4 factor
data
decision
degrees of freedom
Deming's 14 points
descriptive statistics
deviance statistic
difference between two means
difference between two proportions
difference between two variances
discrete random variable
dummy variable
Durbin-Watson statistic
E
empirical classical probability
empirical rule
estimation
estimation of mean values
ethical issues
F
F distribution
F test
F test for factor
F test on slope
F test on the entire regression
fitted value
five-number summary
form of hypothesis
frame
frequency distribution
H
histogram
homoscedasticity
I
inferential statistics
interaction
intercept
interpretation
interquartile range
interval scale
J
joint probability
judgment sample
L
law of large number
learning statistical programs
least squares
level of significance
Levene's test
M
marginal probability
mean (expected value)
mean difference
mean of the sum
mean squares
measure of variation
measurement error
measure of central tendency
median
mode
multiplication rule
mutually exclusive
N
nonprobability sample
nonresponse error
normal distribution
normal probability plot
number of classes
O
one-sided
one-tailed test
one-way analysis of variance
ordinal scale
outcomes
P
p chart
Pareto diagram
parameter
percentage distribution
percentage polygon
permutation
pie chart
point estimate
Poisson distribution
polygon
pooled variance
population
power
prediction interval
prediction of individual values
primary data sources
probability
probability distribution
probability sample
properties
proportion
p-value
Q
quadratic regression
quartile
quota sample
R
R chart
random number
range
ratio scale
reasons for learning statistics
reasons for sampling
red bead experiment
rejection region
relative frequency distribution
residual
residual plot
resistant to outliers
risk
robust test
row percentages
S
sample
sample size
sample size determination
sample space
sampling
sampling distribution
sampling error
sampling method
sampling with replacement
sampling without replacement
scatter plot
secondary data sources
selection bias
shape
Shewhart Deming cycle
simple random sample
six sigma management
slope
sources of data
special causes of variation
standard deviation
standard error
standard error of estimate
standard normal quantile
standardized normal distribution
statistic
statistical control
statistical independence
statistical package
statistics
stem-and-leaf display
stratified sample
subjective probability
sum of squares
survey worthiness
systematic sample
T
t distribution
t test
t test for correlation coefficient
t test on slope
test statistic
testing
total percentages
Tukey-Kramer procedure
two-tailed test
type I error
type II error
types of data
U
unbiased
V
value
variance
variance of sum
variation
W
width
X
XBar chart
Z
Z scores
Z test
1