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Presents a history of atmospheric studies, discussing such topics as the study of air, water, and gases throughout the ages, the classification of climates, the development of weather maps and forecasting, and the discovery and theory of the ice ages.
How will the human body, collective and individual, cope with the estimated increases in global air temperatures and in the earth's corresponding thermal stress? Atmosphere Anatomies: On Design, Weather, and Sensation offers an in-depth examination of design strategies that situate the body and its bioclimatic milieu at the core of their spatial formation. Drawing upon ten paradigmatic projects in urban design and landscape architecture - from Rousham Gardens, Oxfordshire, to the city of Chandigarh in India - the book investigates the designers' bioclimatic aims and their spatial outcomes. Woven throughout the book, the evocative photographic essays of Iwan Baan showcase the selected projects as inhabited spaces for everyday life.
Connect students in grades 5 and up with science using Atmosphere and Weather. This 80-page book covers topics such as heat absorption, relative humidity, barometric pressure, measuring wind, and interpreting weather maps. It contains subject-specific concepts and terminology, inquiry-based activities, challenge questions, extension activities, assessments, curriculum resources, a bibliography, and materials lists. The book supports National Science Education Standards, NCTM standards, and Standards for Technological Literacy.
“With wit and a humbling sense of wonder, this is a book that can be shared and appreciated by a wide audience who now religiously check their phones for daily forecasts.” — Publishers Weekly Starred Review “This terrific, accessible, and exciting read helps us to better understand the aspects of weather and the atmosphere all around us.” —Library Journal Starred Review We live at the bottom of an ocean of air — 5,200 million million tons, to be exact. It sounds like a lot, but Earth’s atmosphere is smeared onto its surface in an alarmingly thin layer — 99 percent contained within 18 miles. Yet, within this fragile margin lies a magnificent realm — at once gorgeous, terrifying, capricious, and elusive. With his keen eye for identifying and uniting seemingly unrelated events, Chris Dewdney reveals to us the invisible rivers in the sky that affect how our weather works and the structure of clouds and storms and seasons, the rollercoaster of climate. Dewdney details the history of weather forecasting and introduces us to the eccentric and determined pioneers of science and observation whose efforts gave us the understanding of weather we have today. 18 Miles is a kaleidoscopic and fact-filled journey that uncovers our obsession with the atmosphere and weather — as both evocative metaphor and physical reality. From the roaring winds of Katrina to the frozen oceans of Snowball Earth, Dewdney entertains as he gives readers a long overdue look at the very air we breathe.
Written for the undergraduate, non-majors course, the Third Edition engages students with real-world examples and a captivating narrative. It highlights how we observe the atmosphere and then uses those discoveries to explain atmospheric phenomena. Early chapters discuss the primary atmospheric variables involved in the formation of weather: pressure, temperature, moisture, clouds, and precipitation, and include practical information on weather maps and weather observation. The remainder of the book focuses on weather and climate topics such as the interaction between atmosphere and ocean, severe/extreme weather, and climate change.
Thermal Physics of the Atmosphere offers a concise and thorough introduction on how basic thermodynamics naturally leads on to advanced topics in atmospheric physics. The book starts by covering the basics of thermodynamics and its applications in atmospheric science. The later chapters describe major applications, specific to more specialized areas of atmospheric physics, including vertical structure and stability, cloud formation, and radiative processes. The book concludes with a discussion of non-equilibrium thermodynamics as applied to the atmosphere. This book provides a thorough introduction and invaluable grounding for specialised literature on the subject. Introduces a wide range of areas associated with atmospheric physics Starts from basic level thermal physics Ideally suited for readers with a general physics background Self-assessment questions included for each chapter Supplementary website to accompany the book
Our Amazing Atmosphere: An Introduction to Weather and Climate provides students with a comprehensive exploration of the earth's atmosphere. The text places special emphasis on relationships between fundamental variables, such as temperature, pressure, winds, and moisture, and how these variables underlie atmospheric phenomena. This approach allows students to acquire a unified and holistic understanding of the atmosphere. The text begins with chapters covering the basic anatomy of the atmosphere and various influences that govern its behavior. Subsequent chapters explore cloud types and precipitation, along with different types of weather systems, such as thunderstorms, mid-latitude low cyclones, and hurricanes. The book includes a detailed description on how weather forecasts are made and a thorough presentation of weather and climate anomalies, as exemplified by El Nino. Students learn how anomalies like El Nino influence long-term weather worldwide, providing them with a glimpse of the interdependence of the atmosphere and other components of the Earth system. The final chapter addresses the all-important issue of climate change, with emphasis on its scientific basis, using concepts introduced in previous chapters. In providing students with foundational knowledge on weather, climate, and atmosphere, Our Amazing Atmosphere is suitable for introductory courses in geology, geosciences, physics, climatology, or any course that studies climate change. Eugene Robl has a Ph.D. in meteorology from the University of Utah, M.S. in physics from Missouri University of Science and Technology, and B.A. in physics from Loyola-Marymount University. He is an instructor in the Department of Atmospheric Sciences at the University of Utah as well as an adjunct professor at Westminster College of Salt Lake City, where he has taught courses in meteorology, astronomy, chemistry, and physics.
This book sets forth a new research agenda for climate theory and aesthetics for the age of the Anthropocene. It explores the challenge of representing and conceptualizing climate in the era of climate change. In the Anthropocene when geologic conditions and processes are primarily shaped by human activity, climate indicates not only atmospheric forces but the gamut of human activity that shape these forces. It includes the fuels we use, the lifestyles we cultivate, the industrial infrastructures and supply chains we build, and together these point to the possible futures we may encounter. This book demonstrates how every weather event constitutes the climatic forces that are as much social, cultural, and economic as they are environmental, natural, and physical. By foregrounding this fundamental insight, it intervenes in the well-established political and scientific discourses of climate change by identifying and exploring emergent aesthetic practices and the conceptual project of mediating the various forces embedded in climate. This book is the first to sustain a theoretical and analytical engagement with the category of realism in the context of anthropogenic climate change, to capture climate’s capacity to express embedded histories, and to map the formal strategies of representation that have turned climate into cultural content.
Weather, Macroweather, and the Climate is an insider's attempt to explain as simply as possible how to understand the atmospheric variability that occurs over an astonishing range of scales: from millimeters to the size of the planet, from milliseconds to billions of years. The variability is so large that standard ways of dealing with it are utterly inadequate: in 2015, it was found that classical approaches had underestimated the variability by the astronomical factor of a quadrillion (a million billion). Author Shaun Lovejoy asks - and answers - many fundamental questions such as: Is the atmosphere random or deterministic? What is turbulence? How big is a cloud (what is the appropriate notion of size itself)? What is its dimension? How can we conceptualize the structures within structures within structures spanning millimeters to thousands of kilometers and milliseconds to the age of the planet? What is weather? What is climate? Lovejoy shows in simple terms why the industrial epoch warming can't be natural - much simpler than trying to show that it's anthropogenic. We will discuss in simple terms how to make the best seasonal and annual forecasts - without giant numerical models. Above all, the book offers readers a new understanding of the atmosphere.