Before we describe the changes and new features in this second edition,
we want to highlight what has not changed: Workshop Statistics aims
to provide students and instructors with a self-contained, learner-centered
resource of activities through which students can discover statistical
concepts, explore statistical properties, and apply statistical techniques.
The features that distinguished the first edition, detailed in the original
preface reprinted below, have been retained: emphases on active learning,
conceptual understanding, genuine data, and use of technology.
New Topics
New topics have been added on sampling distributions and the Central
Limit Theorem for sample means, chi-square tests for two-way tables, and
inference for correlation and regression. Many other topics are given a
much fuller treatment, such as probability and experimental design. Concepts
and techniques that have been added within topics include mean absolute
deviation, relative risk, stratification, and blocking.
New and Revised Activities
Many of the in-class activities have been re-written and new ones developed
to better focus students' attention on the statistical principles being
introduced. Many of the new activities address conceptual understanding
in particular. Numerous homework activities have been added to allow instructors
more choices in activities to assign.
New and Updated Data
Many of the time dependent data sets in the first edition, most recorded
in the early 1990s, have been updated to more current values. These include
Senators and Justices years of service, Hollywood and Broadway box office
revenues, golfers winnings, Presidential election results, governors salaries,
and baseball results, to name just a few. The use of hypothetical datasets
has been decreased.
New Organization
The book continues to be arranged around six units, each comprised
of multiple topics. Some of these units and topics have been re-organized.
Unit II addresses comparisons as well as relationships, with relationships
between categorical variables moved earlier and considered as comparisons.
The issue of data collection now comprises the third unit. The unit on
principles of inference now encompasses inference for population means
as well as proportions, eliminating the need for a unit on inference for
measurements. The final unit presents inference for both comparisons and
relationships.
New Formatting
As in the first edition, expository paragraphs are interspersed among
the activities to reinforce the ideas that students are to garner from
the activities. The more important of these expository passages have been
highlighted within boxes to ensure that students do not miss the most important
ideas. The header now helps students and instructors to find activities
by number more easily, and page references are now given for the numerous
activities that refer to previous ones.
Students are intended to use technology, both as a tool for analyzing
data and as a vehicle through which to explore statistical concepts, with
this book. Roughly half of the activities require the use of a software
package or graphing calculator. This version of the book assumes that students
will use the Minitab statistical software, an analysis package widely used
in industrial as well as in educational settings. Minitab's strengths include
its user-friendliness as well as its macro and simulation capabilities.
Instructions for using Minitab have been integrated into the activities, and an appendix providing an overview of Minitab has been included. By no means do we intend this book to be a user's manual for Minitab; in fact, we make use of just a fraction of Minitab's capabilities. The focus is on helping students to use Minitab as an aid in discovering statistical concepts and exploring statistical principles.
We intend for this text to be flexible enough to support a variety of implementations for instructors and students with varying degrees of access to computing facilities. With few exceptions we recommend that students investigate a concept through hand-drawn displays and calculator-assisted calculations before proceeding to use Minitab to check their work and to explore larger data sets. On most homework activities, whether or not a student should use Minitab is left to the instructor's discretion. Our goal has been to provide detailed enough instructions that students can complete Minitab activities, with a minimum of instructor support, outside of class time if necessary.
The Minitab instructions presented in the text have een tested with the Windows Professional (through version 13) and Student versions, as well as the Macintosh professional and Student versions.
All of the datasets in the book are available for downloading from the
Web in a variety of formats, so there is no need to type in data by hand.
See the publisher's web site at www.keycollege.com
or the authors' web sites at www.rossmanchance.com/ws/
for links to these datasets.
Instructors and students who use this book should be aware of a
variety of supporting materials that are available. A complete Guide for
Instructors is also available, as well as solutions to selected activities,
sample syllabi, and sample exams. As mentioned above, downloadable datasets
are also available, as are some Java applets to accompany selected activities.
Please check the publishers' web site at www.keycollege.com
or the authors' web sites at www.dickinson.edu/~rossman
and statweb.calpoly.edu/chance
for links to these materials.
This second edition of Workshop Statistics is available in
four versions. For the most part, the topics and activities in the various
versions are identical. The differences are the technology-specific instructions
that accompany the activities in the Minitab, Graphing Calculator, and
Fathom versions, providing detailed instructions appropriate to the specific
software package or calculator.
We gratefully acknowledge the very helpful feedback that we have
received on the first edition of Workshop Statistics from the following
instructors:
Jim Albert | Skip Allis | Patricia Bassett | Charles Bertness |
Chuck Biehl | Jim Bohan | Cheri Boyd | Gordon Bril |
Marilyn Byers | Julie Clark | Benjamin Collins | Al Coons |
Carolyn Cuff | Christine Czapleski | L.J. Davis | Carolyn Dobler |
Clark Engel | Christa Fratto | Steve Friedberg | Brian Gray |
Dorothea Grimm | Bill Halteman | Alice Hankla | Anne Kaufman |
Bruce King | Larry Langley | Suzanne Larson | Todd Lee |
Jerry Moreno | Sue Peters | Gina Reed | Bill Rinaman |
Charlie Scheim | Ned Schillow | Brian Schott | Bernie Schroeder |
Joanne Schweinsberg | Sallie Scudder | Mike Seyfried | Sue Suran |
Sam Tumulo | Kathryn Voit | Barr von Oehsen | Don Weimer |
Rhonda Weissman | Jean Werner | Sheila Young | Thomas Zachariah |
John Zhang |
We also thank Dickinson College students Jason Herr and Mary Joan LaFrance for their assistance with compiling data for the second edition. We especially thank Robin Lock for his careful reading and valuable suggestions on this manuscript, and David Kramer for his copy editing.
Allan J. Rossman
Beth L. Chance
February 2000