Students are introduced to air masses, with an emphasis on the differences between and characteristics of high- versus low-pressure air systems. Students also hear about weather forecasting instrumentation and how engineers work to improve these instruments for atmospheric measurements on Earth and in space.

Climate change is an urgent problem. Because it is causing new weather extremes and fatal catastrophes, climate change is better termed climate disruption. Bending the curve to flatten the upward trajectory of pollution emissions responsible for climate disruption is essential in order to protect billions of people from this global threat. Education is a key part of the solution.

Weaving Climate, Environmental Justice and Civic Engagement into Your Courses

Short Description:
As the inequitable impacts of climate change become more evident and destructive, it is essential for climate and environmental justice, as well as methods of civic engagement, to be taught at a high-level to college-level students. This book provides real examples of how professors at the University of Washington integrated these critical issues into their teachings, both in targeted lessons and as throughlines across an entire course. These samples of how environmental and climate justice have been successfully integrated into higher-level education can serve as both a record of the UW's progress towards centering JEDI at the heart of all students, and as a model for future instructors to use as they work to incorporate more aspects of justice and engagement into their own material.

Long Description:
With the increased effect of anthropogenic climate change, the impact of environmental issues on human societies has never been more essential to understand. With science-backed research showcasing that human activities are actively worsening the effect of many environmental issues including severe temperatures, natural disasters, and biodiversity loss, there is severe need for all, whether we are scientists, activists, educators, or policy-makers, to take action. However, the global nature of both our society and the dangers we are facing necessitates careful consideration in analyzing and combatting environmental issues in a modern world. To properly adapt to and mitigate these issues, which may directly target specific communities or affect societies across the globe, not only do we need a proper grasp of environmental and climate science, but we need to ensure that solutions are mindful of the communities and ecosystems that are affected. We must not be content with climate and environmental solutions that fail to consider diversity, equity, inclusion, and accessibility as key tenets. In short, justice must be at the heart of our climate and environmental work going forward.

Yet, facilitating just solutions cannot be done while the institutions that teach the next generation fail to highlight climate and environmental justice in their teachings. Without a natural and focused inclusion of DEIA values in environmental courses in higher education, there is reduced capacity for students who wish to engage to garner an understanding of what just solutions look like and how to implement them. This book seeks to remedy that gap.

Throughout this book, we synthesize the current efforts towards including climate, environmental justice, and civic engagement in courses taught at the University of Washington – Seattle. These examples range from specific lessons on environmental injustice to course-long integration of climate justice values, and include course details, lesson plans, and other resources provided by course instructors in an easy-to-access format. The chapters in this book each constitute a real method of integrating climate and environmental justice into a course, and thus provide a bounty of instruction for increasing the inclusion of justice in course material for instructors across any discipline. Lessons will be regularly added to the book as they are implemented and adapted. The existence of this book marks not only the history of environmental justice in courses at the UW, but also the emphasis on the topic of justice that the college is placing in the current day, as well as serving as a guide or model for instructors to use as more courses begin to fully integrate justice into their curriculum. Through this work, we can be more reliably assured that the people we are training to practice civic engagement and climate and environmental action can not just protect the planet, but preserve the life of the people, communities, and ecosystems who depend on it.

This book has been created with support from the University of Washington Program on Climate Change, the UW Program on the Environment, and the University of Washington College of the Environment, especially from material created at our annual Climate and Environmental Justice Faculty Institute.

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The Climate Toolkit is a resource manual designed to help the reader navigate the complex and perplexing issue of climate change by providing tools and strategies to explore the underlying science. As such it contains a collection of activities that make use of readily available on-line resources developed by research groups and public agencies. These include web-based climate models, climate data archives, interactive atlases, policy papers, and “solution” catalogs. Unlike a standard textbook, it is designed to help readers do their own climate research and devise their own perspective rather than providing them with a script to assimilate and repeat.

Short Description:
This book describes how Earth's climate is changing, how it has been changing in the recent geological past and how it may change in the future. It covers the physical sciences that build the foundations of our current understanding of global climate change such as radiation, Earth's energy balance, the greenhouse effect and the carbon cycle. Both natural and human causes for climate change are discussed. Impacts of climate change on natural and human systems are summarized. Ethical and economical aspects of human-caused climate change and solutions are presented. Data dashboard

Word Count: 52328

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Students observe and discuss a cup and pencil model of a cyclone to better understand the science behind how this pollutant recovery method functions in cleaning industrial air pollution.

Students explore the causes and effects of the Earth's ozone holes through discussion and an interactive simulation. In an associated literacy activity, students learn how to tell a story in order to make a complex topic (such as global warming or ozone holes) easier for a reader to grasp.

Students discuss the characteristics of storms, including the relationship of weather fronts and storms. Using everyday materials, they develop models of basic lightning detection systems (similar to a Benjamin Franklin design) and analyze their models to determine their effectiveness as community storm warning systems.

Students are introduced to some essential meteorology concepts so they more fully understand the impact of meteorological activity on air pollution control and prevention. First, they develop an understanding of the magnitude and importance of air pressure. Next, they build a simple aneroid barometer to understand how air pressure information is related to weather prediction. Then, students explore the concept of relative humidity and its connection to weather prediction. Finally, students learn about air convection currents and temperature inversions. In an associated literacy activity, students learn how scientific terms are formed using Latin and Greek roots, prefixes and suffixes, and are introduced to the role played by metaphor in language development. Note: Some of these activities can be conducted simultaneously with the air quality activity (What Color Is Your Air Today?) of Air Pollution unit, Lesson 1.