Friedland/Relyea Environmental Science for AP* was specifically developed to meet the requirements of the AP Environmental Science course and the needs of its students and teachers. This highly anticipated new textbook explores the science behind environmental science and involves students with the fundamental concepts and findings that inform environmental decision making at all levels—from personal choices to national and international policy. This site will be the source for periodic updates on this exciting project as it draws closer to publication. For the latest developments, or if you would like to be a part of this project as a reviewer or class-tester, please contact Carlise Stembridge.
Written specifically for the AP® Environmental Science course, Friedland and Relyea Environmental Science for AP®Second Edition, is designed to help you realize success on the AP® Environmental Science Exam and in your course by providing the built-in support you want and need. In the new edition, each chapter is broken into short, manageable modules to help students learn at an ideal pace. Do the Math boxes review quantitative skills and offer you a chance to practice the math you need to know to succeed. Module AP® Review questions, Unit AP® Practice Exams, and a full length cumulative AP® Practice test offer unparalleled, integrated support to prepare you for the real AP® Environmental Science exam in May.
Watch a video clips and view sample chapters at www.whfreeman.com/friedlandpreview Created for non-majors courses in environmental science, environmental studies, and environmental biology, Environmental Science: Foundations and Applications emphasizes critical thinking and quantitative reasoning skills. Students learn how to analyze graphs, measure environmental impact on various scales, and use simple calculations to understand key concepts.With a solid understanding of science fundamentals and how the scientific method is applied, students are able to evaluate information objectively and draw their own conclusions. The text equips students to interpret the wealth of data they will encounter as citizens, professionals, and consumers.
Strive for a 5: Preparing for the AP(R) Environmental Science Examination is a workbook designed to help students evaluate their understanding of the material covered in the student textbook, to reinforce key concepts, and to prepare students for success on the AP(R) Environmental Science Exam. There are two sections in the Strive for a 5, a study guide section and a test preparation section. The study guide contains a detailed reading guide for students to use as they study the chapter with between 100 and 200 comprehension questions per chapter. There are also vocabulary exercises, math practice problems, and review questions, as well as FRQ practice questions and two full practice cumulative exams.
Make sure you’re studying with the most up-to-date prep materials! Look for the newest edition of this title, The Princeton Review AP Environmental Science Prep, 2022 (ISBN: 9780525570646, on-sale August 2021). Publisher's Note: Products purchased from third-party sellers are not guaranteed by the publisher for quality or authenticity, and may not include access to online tests or materials included with the original product.
"Havill's problem-driven approach introduces algorithmic concepts in context and motivates students with a wide range of interests and backgrounds." -- Janet Davis, Associate Professor and Microsoft Chair of Computer Science, Whitman College "This book looks really great and takes exactly the approach I think should be used for a CS 1 course. I think it really fills a need in the textbook landscape." -- Marie desJardins, Dean of the College of Organizational, Computational, and Information Sciences, Simmons University "Discovering Computer Science is a refreshing departure from introductory programming texts, offering students a much more sincere introduction to the breadth and complexity of this ever-growing field." -- James Deverick, Senior Lecturer, The College of William and Mary "This unique introduction to the science of computing guides students through broad and universal approaches to problem solving in a variety of contexts and their ultimate implementation as computer programs." -- Daniel Kaplan, DeWitt Wallace Professor, Macalester College Discovering Computer Science: Interdisciplinary Problems, Principles, and Python Programming is a problem-oriented introduction to computational problem solving and programming in Python, appropriate for a first course for computer science majors, a more targeted disciplinary computing course or, at a slower pace, any introductory computer science course for a general audience. Realizing that an organization around language features only resonates with a narrow audience, this textbook instead connects programming to students’ prior interests using a range of authentic problems from the natural and social sciences and the digital humanities. The presentation begins with an introduction to the problem-solving process, contextualizing programming as an essential component. Then, as the book progresses, each chapter guides students through solutions to increasingly complex problems, using a spiral approach to introduce Python language features. The text also places programming in the context of fundamental computer science principles, such as abstraction, efficiency, testing, and algorithmic techniques, offering glimpses of topics that are traditionally put off until later courses. This book contains 30 well-developed independent projects that encourage students to explore questions across disciplinary boundaries, over 750 homework exercises, and 300 integrated reflection questions engage students in problem solving and active reading. The accompanying website — https://www.discoveringcs.net — includes more advanced content, solutions to selected exercises, sample code and data files, and pointers for further exploration.
Disenchanted with the mainstream environmental movement, a new, more radical kind of environmental activist emerged in the 1980s. Radical environmentalists used direct action, from blockades and tree-sits to industrial sabotage, to save a wild nature that they believed to be in a state of crisis. Questioning the premises of liberal humanism, they subscribed to an ecocentric philosophy that attributed as much value to nature as to people. Although critics dismissed them as marginal, radicals posed a vital question that mainstream groups too often ignored: Is environmentalism a matter of common sense or a fundamental critique of the modern world? In The Ecocentrists, Keith Makoto Woodhouse offers a nuanced history of radical environmental thought and action in the late-twentieth-century United States. Focusing especially on the group Earth First!, Woodhouse explores how radical environmentalism responded to both postwar affluence and a growing sense of physical limits. While radicals challenged the material and philosophical basis of industrial civilization, they glossed over the ways economic inequality and social difference defined people’s different relationships to the nonhuman world. Woodhouse discusses how such views increasingly set Earth First! at odds with movements focused on social justice and examines the implications of ecocentrism’s sweeping critique of human society for the future of environmental protection. A groundbreaking intellectual history of environmental politics in the United States, The Ecocentrists is a timely study that considers humanism and individualism in an environmental age and makes a case for skepticism and doubt in environmental thought.
Biofouling is a costly problem, and it is encountered in a wide spectrum of technical systems, ranging from the shipping industry, power industry, water purification, automobile industry, paint and pharmaceuticals, to the microelectronics and food industries. Micro- and macroorganisms attach to surfaces and accumulate there, forming biofilms that cause interferences – a fundamentally natural process. Usually, a medical paradigm is applied: kill biofilms and the problem is solved. This leads to excessive biocide use. However, the success of this strategy is very limited; furthermore it leads to equipment damage and environmental pollution. Simply trying to kill the fouling organisms is clearly not seen as a successful strategy while cleaning is put forward as much more important. In this book, strategies to prevent adhesion, to mitigate the extent and effects of biofouling, and to detect and remove fouling layers are presented. Holistic approaches to the fouling process are elaborated, taking into account options such as nutrient limitation, repellent and easy-to-clean surfaces for fouling layer limitation, and replacing biocides with more environmentally friendly methods – in other words: learning how to live with fouling biofilms without suffering the damage they can do.
