Science Action Labs Astronomy


Book Description

Astronomy helps students discover the universe, question whether or not there may be life on other planets in the solar system, see how gravity works and understand the importance of the sun to the whole system. They'll enjoy experimenting with rotation, speed and gravity; discovering some moon superstitions; learning about astronomy heroes; creating their own Martian; making their own rainbow; and taking periodic quizzes to see how much they have learned.




Science Action Labs Astronomy (ENHANCED eBook)


Book Description

Astronomy helps students discover the universe, question whether or not there may be life on other planets in the solar system, see how gravity works and understand the importance of the sun to the whole system. They'll enjoy experimenting with rotation, speed and gravity; discovering some moon superstitions; learning about astronomy heroes; creating their own Martian; making their own rainbow; and taking periodic quizzes to see how much they have learned.




Science Action Labs Environment


Book Description

Explorations in Environmental Science. These easy-to-use, hands-on explorations are just what you need to get your science curriculum, and your students, into action!




Science Action Labs Physical Science


Book Description

Matter and Motion. These easy-to-use, hands-on explorations are just what you need to get your science curriculum, and your students, into action!




Science Action Labs Environment (eBook)


Book Description

Explorations in Environmental Science. These easy-to-use, hands-on explorations are just what you need to get your science curriculum, and your students, into action!




Basic Astronomy Labs


Book Description

Providing the tools and know-how to apply the principles of astronomy first-hand, these 43 laboratory exercises each contain an introduction that clearly shows budding astronomers why the particular topic of that lab is of interest and relevant to astronomy. About one-third of the exercises are devoted solely to observation, and no mathematics is required beyond simple high school algebra and trigonometry.Organizes exercises into six major topics--sky, optics and spectroscopy, celestial mechanics, solar system, stellar properties, and exploration and other topics--providing clear outlines of what is involved in the exercise, its purpose, and what procedures and apparatus are to be used. Offers variations on standard and popular exercises, and includes many that are new and innovative, such as "The Messier List" which helps users discover basic facts about the Milky Way Galaxy by plotting these objects on a star chart; "Motions of Earth" demonstrates just how fast the Earth is moving through space and in which direction it is going, and; "Radioactivity and Time" which measures the half-life of a short-lived isotope, and consider radioactive dating and heating of celestial bodies. Includes a guide to astronomical pronunciations, a guide to the constellations, spectral classifications, quotes on science, and more.For astronomers.










Space Technology & Planetary Astronomy


Book Description

"... the book reminds us of an important lesson in the postwar era of big science: that government policy may lead initially to tremendous support for various fields of science and technology." --Science "... a triumph of historical analysis." --Choice "This is an excellent record of the beginnings of the NASA plantetary astronomy program in the years 1958-70." --American Historical Review "The historical circumstances that led to this country's great leap into space were unique, but it is clear that there are many lessons to be learnt from this enthralling tale and Tatarewicz tells the tale well." --Annals of Science When NASA went looking for expertise on the moon and planets following Sputnik, they found that astronomers had long since turned their telescopes away from our planets and toward the stars. Where were the scientists who could help the United States explore the solar system? The answer, as this important new study shows, was that NASA had to create them This story of the precipitous rise and decline of planetary astronomy is an important case study of science in an age of state-managed research and development. It demonstrates that the lines between science, technology, politics, and society are anything but fixed and impermeable.




Scientific Practice


Book Description

Most recent work on the nature of experiment in physics has focused on "big science"—the large-scale research addressed in Andrew Pickering's Constructing Quarks and Peter Galison's How Experiments End. This book examines small-scale experiment in physics, in particular the relation between theory and practice. The contributors focus on interactions among the people, materials, and ideas involved in experiments—factors that have been relatively neglected in science studies. The first half of the book is primarily philosophical, with contributions from Andrew Pickering, Peter Galison, Hans Radder, Brian Baigrie, and Yves Gingras. Among the issues they address are the resources deployed by theoreticians and experimenters, the boundaries that constrain theory and practice, the limits of objectivity, the reproducibility of results, and the intentions of researchers. The second half is devoted to historical case studies in the practice of physics from the early nineteenth to the early twentieth century. These chapters address failed as well as successful experimental work ranging from Victorian astronomy through Hertz's investigation of cathode rays to Trouton's attempt to harness the ether. Contributors to this section are Jed Z. Buchwald, Giora Hon, Margaret Morrison, Simon Schaffer, and Andrew Warwick. With a lucid introduction by Ian Hacking, and original articles by noted scholars in the history and philosophy of science, this book is poised to become a significant source on the nature of small-scale experiment in physics.