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With a focus on scientific literacy, current events, and forecasting, Understanding Weather and Climate seeks to answer these and other questions, giving students a friendly introduction to the fundamentals of atmospheric science.
&>For Introductory Meteorology Science Courses. Engage Students in Learning About Atmospheric Processes Aguado/Burt’s Understanding Weather and Climate illustrates meteorology and climatology using everyday occurrences and inspired technology tutorials to engage students in learning about atmospheric processes and patterns. The Seventh Edition extends coverage of global climate change with new and unique sections covering oceans and climate in the Earth system. Each chapter also focuses on the human aspect of weather and climate, covering high interest weather-related hazards that draw students into the course, while incorporating the latest science and the most relevant issues. MasteringMeteorology with eText for Understanding Weather and Climate is an online homework, tutorial, and assessment product designed to improve results by helping your students quickly master concepts. The book and MasteringMeteorology work together to create a classroom experience that is tightly integrated to help students succeed both in and outside of the classroom. Note: If you are purchasing the standalone text or electronic version, MasteringMeteorology does not come automatically packaged with the text. To purchase MasteringMeteorology please visit www.masteringmeteorology.com or you can purchase a package of the physical text + MasteringMeteorology by searching for 0321984439 / 9780321984432. MasteringMeteorology is not a self-paced technology and should only be purchased when required by an instructor.
Originally published in 1986 as Basic meteorology: a physical outline.
This textbook provides a comprehensive yet accessible treatment of weather and climate prediction, for graduate students, researchers and professionals. It teaches the strengths, weaknesses and best practices for the use of atmospheric models. It is ideal for the many scientists who use such models across a wide variety of applications. The book describes the different numerical methods, data assimilation, ensemble methods, predictability, land-surface modeling, climate modeling and downscaling, computational fluid-dynamics models, experimental designs in model-based research, verification methods, operational prediction, and special applications such as air-quality modeling and flood prediction. This volume will satisfy everyone who needs to know about atmospheric modeling for use in research or operations. It is ideal both as a textbook for a course on weather and climate prediction and as a reference text for researchers and professionals from a range of backgrounds: atmospheric science, meteorology, climatology, environmental science, geography, and geophysical fluid mechanics/dynamics.
As global temperatures rise under the forcing hand of humanity’s greenhouse gas emissions, new questions are being asked of how societies make sense of their weather, of the cultural values, which are afforded to climate, and of how environmental futures are imagined, feared, predicted, and remade. Weather, Climate, and Geographical Imagination contributes to this conversation by bringing together a range of voices from history of science, historical geography, and environmental history, each speaking to a set of questions about the role of space and place in the production, circulation, reception, and application of knowledges about weather and climate. The volume develops the concept of “geographical imagination” to address the intersecting forces of scientific knowledge, cultural politics, bodily experience, and spatial imaginaries, which shape the history of knowledges about climate.
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.
They explore how weather forecasters today formulate their ideas through state-of-the-art mathematics, taking into account limitations to predictability.
Weather can be enjoyable, be merely tolerated or even change a good day to a bad one. On some occasions, it can become extreme and dramatically impact your life. Written in a friendly, easy-to-understand style, Ahrens/Samson/Reed's EXTREME WEATHER AND CLIMATE, 2nd Edition clearly explains the science of how hurricanes, tornadoes, lightning, floods and extreme temperatures can occur, how they can sometimes be life-changing and how they may be impacted by global climate change. Vividly illustrated, this text will give you a new appreciation for the power of nature.
"What is North Carolina's "typical" weather? How does it vary from the coast to the mountains? How do we forecast it? With dozens of color maps and tables to make understanding the weather easier, Robinson covers big issues such as the role of weather and climate in daily life, severe weather threats and their causes, and the meteorological effects of seasons. He also explains more specific phenomena including the causes of heating and cooling, the effects of acid rain, and the role of groundwater in weather.".
Since the dawn of medical science, people have recognized connections between a change in the weather and the appearance of epidemic disease. With today's technology, some hope that it will be possible to build models for predicting the emergence and spread of many infectious diseases based on climate and weather forecasts. However, separating the effects of climate from other effects presents a tremendous scientific challenge. Can we use climate and weather forecasts to predict infectious disease outbreaks? Can the field of public health advance from "surveillance and response" to "prediction and prevention?" And perhaps the most important question of all: Can we predict how global warming will affect the emergence and transmission of infectious disease agents around the world? Under the Weather evaluates our current understanding of the linkages among climate, ecosystems, and infectious disease; it then goes a step further and outlines the research needed to improve our understanding of these linkages. The book also examines the potential for using climate forecasts and ecological observations to help predict infectious disease outbreaks, identifies the necessary components for an epidemic early warning system, and reviews lessons learned from the use of climate forecasts in other realms of human activity.