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Look at your data Now available with Macmillan's online learning
platform Achieve, The Practice of Statistics for Business and
Economics (PSBE) helps students develop a working knowledge of data
production and interpretation in a business and economics context,
giving them the practical tools they need to make data-informed,
real-world business decisions from the first day of class. Achieve
for The Practice of Statistics for Business and Economics connects
the problem-solving approach and real-world examples in the book to
rich digital resources that foster further understanding and
application of statistics. Assets in Achieve support learning
before, during, and after class for students, while providing
instructors with class performance analytics in an easy-to-use
interface.
Now available with Macmillan's new online learning tool Achieve,
Introduction to the Practice of Statistics, 10th edition, prepares
students for the application of statistics in the real world by
using current examples and encouraging exploration into data
analysis and interpretation. The text enforces statistical thinking
by providing learning objectives and linked exercises to help
students master core statistics concepts and think beyond the
calculations.Achieve for Introduction to the Practice of Statistics
integrates outcome-based learning objectives and a wealth of
examples with assessment in an easy-to-use interface. Students are
provided with rich digital resources that solidify conceptual
understanding, as well as homework problems with hints,
answer-specific feedback, and a fully worked solution.
Now available with Macmillan's new online learning tool Achieve,
the ninth edition of The Basic Practice of Statistics 9e teaches
statistical thinking by guiding students through an investigative
process of problem-solving with pedagogy designed to help students
of all levels. Examples and exercises from a wide variety of topic
areas use current, real data to provide students insight into how
and why statistics are used to make decisions in the real world.
Achieve for The Basic Practice of Statistics connects the trusted
Four-Step problem-solving approach and real world examples in the
book to rich digital resources that foster further understanding
and application of statistics. Assets in Achieve support learning
before, during, and after class for students, while providing
instructors with class performance analytics in an easy-to-use
interface. Achieve Online Homework Macmillan's new online learning
tool Achieve features intuitive design, assessment, insights, and
reporting built with the direct input of students, educators, and
our learning science team. Achieve for The Basic Practice of
Statistics features: Learning Objectives tagged to all assessments
within Achieve. In-Class Activity Guides to facilitate active
learning during class time. over 3,000 homework questions, each
with hints, answer-specific feedback, and a fully worked solution.
LearningCurve adaptive quizzing. an interactive e-book, powered by
VitalSource. multimedia student resources, such as interactive
applets and videos. data sets for common statistical software,
video technology manuals, and access to Macmillan's proprietary
statistical software, CrunchIt! Content Updates to the Ninth
Edition: Examples and exercises more clearly emphasize the
decision-making process. Chapter Summaries and Review Chapters have
been revised to help students check their knowledge and review for
exams. - Summaries are in concise list form, and Skills Reviews (in
Review Chapters) refer back to relevant chapter sections. Data in
examples and exercises have been updated for currency, and new
examples and exercises explore contemporary issues such as social
media usage.
This practical textbook by David Moore and William Notz introduces
a conceptual approach to statistics and shows students how use
these ideas to think about the statistical claims they see every
day from polls, campaigns, advertising, public policy, and many
different fields of study. The ultimate goal is to equip students
with solid statistical reasoning skills that will help them
understand impact of statistics on all aspects of their lives.
This book offers historical and state-of-the-art molecular
spectroscopy methods and applications in dynamic compression
science, aimed at the upcoming generation in physical sciences
involved in studies of materials at extremes. It begins with
addressing the motivation for probing shock compressed molecular
materials with spectroscopy and then reviews historical
developments and the basics of the various spectroscopic methods
that have been utilized. Introductory chapters are devoted to
fundamentals of molecular spectroscopy, overviews of dynamic
compression technologies, and diagnostics used to quantify the
shock compression state during spectroscopy experiments. Subsequent
chapters describe all the molecular spectroscopic methods used in
shock compression research to date, including theory, experimental
details for application to shocked materials, and difficulties that
can be encountered. Each of these chapters also includes a section
comparing static compression results. The last chapter offers an
outlook for the future, which leads the next-generation readers to
tackling persistent problems.
Now available with Macmillan's new online learning tool Achieve,
Introduction to the Practice of Statistics, 10th edition, prepares
students for the application of statistics in the real world by
using current examples and encouraging exploration into data
analysis and interpretation. The text enforces statistical thinking
by providing learning objectives and linked exercises to help
students master core statistics concepts and think beyond the
calculations. Achieve for Introduction to the Practice of
Statistics integrates outcome-based learning objectives and a
wealth of examples with assessment in an easy-to-use interface.
Students are provided with rich digital resources that solidify
conceptual understanding, as well as homework problems with hints,
answer-specific feedback, and a fully worked solution.
This book offers historical and state-of-the-art molecular
spectroscopy methods and applications in dynamic compression
science, aimed at the upcoming generation in physical sciences
involved in studies of materials at extremes. It begins with
addressing the motivation for probing shock compressed molecular
materials with spectroscopy and then reviews historical
developments and the basics of the various spectroscopic methods
that have been utilized. Introductory chapters are devoted to
fundamentals of molecular spectroscopy, overviews of dynamic
compression technologies, and diagnostics used to quantify the
shock compression state during spectroscopy experiments. Subsequent
chapters describe all the molecular spectroscopic methods used in
shock compression research to date, including theory, experimental
details for application to shocked materials, and difficulties that
can be encountered. Each of these chapters also includes a section
comparing static compression results. The last chapter offers an
outlook for the future, which leads the next-generation readers to
tackling persistent problems.
Why do we grow up to look, act, and feel as we do? Through most of
the twentieth century, scientists and laypeople answered this
question by referring to two factors alone: our experiences and our
genes. But recent discoveries about how genes work have revealed a
new way to understand the developmental origins of our
characteristics. These discoveries have emerged from the new
science of behavioral epigenetics-and just as the whole world has
now heard of DNA, "epigenetics" will be a household word in the
near future. Behavioral epigenetics is important because it
explains how our experiences get under our skin and influence the
activity of our genes. Because of breakthroughs in this field, we
now know that the genes we're born with don't determine if we'll
end up easily stressed, likely to fall ill with cancer, or
possessed of a powerful intellect. Instead, what matters is what
our genes do. And because research in behavioral epigenetics has
shown that our experiences influence how our genes function, this
work has changed how scientists think about nature, nurture, and
human development. Diets, environmental toxins, parenting styles,
and other environmental factors all influence genetic activity
through epigenetic mechanisms; this discovery has the potential to
alter how doctors treat diseases, and to change how mental health
professionals treat conditions from schizophrenia to post-traumatic
stress disorder. These advances could also force a reworking of the
theory of evolution that dominated twentieth-century biology, and
even change how we think about human nature itself. In spite of the
importance of this research, behavioral epigenetics is still
relatively unknown to non-biologists. The Developing Genome is an
introduction to this exciting new discipline; it will allow readers
without a background in biology to learn about this work and its
revolutionary implications.
Why do we grow up to look, act, and feel as we do? Through most of
the twentieth century, scientists and laypeople answered this
question by referring to two factors alone: our experiences and our
genes. But recent discoveries about how genes work have revealed a
new way to understand the developmental origins of our
characteristics. These discoveries have emerged from the new
science of behavioral epigenetics-and just as the whole world has
now heard of DNA, "epigenetics" will be a household word in the
near future. Behavioral epigenetics is important because it
explains how our experiences get under our skin and influence the
activity of our genes. Because of breakthroughs in this field, we
now know that the genes we're born with don't determine if we'll
end up easily stressed, likely to fall ill with cancer, or
possessed of a powerful intellect. Instead, what matters is what
our genes do. And because research in behavioral epigenetics has
shown that our experiences influence how our genes function, this
work has changed how scientists think about nature, nurture, and
human development. Diets, environmental toxins, parenting styles,
and other environmental factors all influence genetic activity
through epigenetic mechanisms; this discovery has the potential to
alter how doctors treat diseases, and to change how mental health
professionals treat conditions from schizophrenia to post-traumatic
stress disorder. These advances could also force a reworking of the
theory of evolution that dominated twentieth century biology, and
even change how we think about human nature itself. In spite of how
important this research is, behavioral epigenetics is still
relatively unknown to non-biologists. The Developing Genome is an
introduction to this exciting new discipline; it will allow readers
without a background in biology to learn about this work and its
revolutionary implications.
This volume reveals the applications of statistics to a wide range
of fields, from public policy to the sciences. It introduces new
technology and pedagogical features.
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