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Who knew that gecko feet inspired scientists to develop a stickier adhesive or that cockleburs in dog fur led to the invention of Velcro? Discovery Engineering in Physical Science uses these and other surprising cases of innovations sparked by accidental observations to teach about the amazing role of serendipity in science. The case studies in this new resource are a lively way to integrate engineering into your physical science classes. Middle and high school students will learn to understand fundamental science processes while trying out their own ideas for unexpected applications. Each of the book' s 22 investigations starts with a real case of accidental inspiration that students explore through primary documents or historical accounts. Then it' s time for the students to become the innovators. They' re tasked to do research, examine data and physical materials, and use their own creativity to design new products or problem-solving applications. The investigations are easy to implement and flexible enough to use in part or as a whole. Students will learn one or more science concepts as they' re exposed to background on the unpredictable nature of science. And they' ll be intrigued by investigations with titles such as " By the Teeth of Your Skin: Shark Skin and Bacteria" and " From Ship to Staircase: The History of the Slinky." Try this book and see what happens! The result may be more engaged science students-- and more great ideas about how gecko feet can inspire solutions to everyday problems.
World-leading researchers, including Nobel Laureates, explore the most basic questions of science, philosophy, and the nature of existence.
"Who knew that small, plant-eating mammals called pikas helped scientists find new ways to survive extreme weather events, or that algae could be used as airplane fuel? Your students will learn about amazing scientific advancements like these when you use the lessons in Discovery Engineering in Biology: Case Studies for Grades 6-12. The book is a lively way to blend history, real-world perspectives, 21st-century skills, and engineering into your biology or STEM curriculum. Like Discovery Engineering in Physical Science (see p. XX), this book features case studies about observations and accidental discoveries that led to the invention of new products and problem-solving applications. The 20 lessons are both flexible and easy to use. After reading a historical account of an actual innovation, students explore related activities that connect to such topics as molecules and organisms, ecosystems, heredity, and biological evolution. Then they're prompted to think creatively about science from serendipity. They conduct research, analyze data, and use the engineering design process to develop products or applications of their own. Students are sure to be intrigued by investigations with titles such as "Vindicating Venom: Using Biological Mechanisms to Treat Diseases and Disorders" and "Revealing Repeats: The Accidental Discovery of DNA Fingerprinting." Discovery Engineering in Biology is an engaging way to help students discover that when accidents happen, the outcome can be an incredible innovation"--
"Who knew that small, plant-eating mammals called pikas helped scientists find new ways to survive extreme weather events, or that algae could be used as airplane fuel? Your students will learn about amazing scientific advancements like these when you use the lessons in Discovery Engineering in Biology: Case Studies for Grades 6-12. The book is a lively way to blend history, real-world perspectives, 21st-century skills, and engineering into your biology or STEM curriculum. Like Discovery Engineering in Physical Science (see p. XX), this book features case studies about observations and accidental discoveries that led to the invention of new products and problem-solving applications. The 20 lessons are both flexible and easy to use. After reading a historical account of an actual innovation, students explore related activities that connect to such topics as molecules and organisms, ecosystems, heredity, and biological evolution. Then they're prompted to think creatively about science from serendipity. They conduct research, analyze data, and use the engineering design process to develop products or applications of their own. Students are sure to be intrigued by investigations with titles such as "Vindicating Venom: Using Biological Mechanisms to Treat Diseases and Disorders" and "Revealing Repeats: The Accidental Discovery of DNA Fingerprinting." Discovery Engineering in Biology is an engaging way to help students discover that when accidents happen, the outcome can be an incredible innovation"--
"Explore this fascinating timeline history of physical science! What are matter, motion, gravity, electricity, magnetism, and substances? Who first studied these concepts? And who later built on and expanded the work of those early thinkers?"--
The mathematical sciences are part of everyday life. Modern communication, transportation, science, engineering, technology, medicine, manufacturing, security, and finance all depend on the mathematical sciences. Fueling Innovation and Discovery describes recent advances in the mathematical sciences and advances enabled by mathematical sciences research. It is geared toward general readers who would like to know more about ongoing advances in the mathematical sciences and how these advances are changing our understanding of the world, creating new technologies, and transforming industries. Although the mathematical sciences are pervasive, they are often invoked without an explicit awareness of their presence. Prepared as part of the study on the Mathematical Sciences in 2025, a broad assessment of the current state of the mathematical sciences in the United States, Fueling Innovation and Discovery presents mathematical sciences advances in an engaging way. The report describes the contributions that mathematical sciences research has made to advance our understanding of the universe and the human genome. It also explores how the mathematical sciences are contributing to healthcare and national security, and the importance of mathematical knowledge and training to a range of industries, such as information technology and entertainment. Fueling Innovation and Discovery will be of use to policy makers, researchers, business leaders, students, and others interested in learning more about the deep connections between the mathematical sciences and every other aspect of the modern world. To function well in a technologically advanced society, every educated person should be familiar with multiple aspects of the mathematical sciences.
A textbook covering data-science and machine learning methods for modelling and control in engineering and science, with Python and MATLAB®.
Cycles of Invention and Discovery offers an in-depth look at the real-world practice of science and engineering. It shows how the standard categories of “basic” and “applied” have become a hindrance to the organization of the U.S. science and technology enterprise. Tracing the history of these problematic categories, Venkatesh Narayanamurti and Toluwalogo Odumosu document how historical views of policy makers and scientists have led to the construction of science as a pure ideal on the one hand and of engineering as a practical (and inherently less prestigious) activity on the other. Even today, this erroneous but still widespread distinction forces these two endeavors into separate silos, misdirects billions of dollars, and thwarts progress in science and engineering research. The authors contrast this outmoded perspective with the lived experiences of researchers at major research laboratories. Using such Nobel Prize–winning examples as magnetic resonance imaging, the transistor, and the laser, they explore the daily micro-practices of research, showing how distinctions between the search for knowledge and creative problem solving break down when one pays attention to the ways in which pathbreaking research actually happens. By studying key contemporary research institutions, the authors highlight the importance of integrated research practices, contrasting these with models of research in the classic but still-influential report Science the Endless Frontier. Narayanamurti and Odumosu’s new model of the research ecosystem underscores that discovery and invention are often two sides of the same coin that moves innovation forward.