Astrophysics Processes The Physics of Astronomical Phenomena [Hardcover]

This book bridges the gap between physics and astronomy texts for undergraduate and graduate students.Written for advanced undergraduates and graduate students, this book provides physical explanations of twelve fundamental astrophysical processes underlying a wide range of phenomena in astronomy. It contains tutorial figures, review exercises, and step-by-step mathematical and physical development, providing a stepping stone to more specialized books and primary literature.Written for advanced undergraduates and graduate students, this book provides physical explanations of twelve fundamental astrophysical processes underlying a wide range of phenomena in astronomy. It contains tutorial figures, review exercises, and step-by-step mathematical and physical development, providing a stepping stone to more specialized books and primary literature.Bridging the gap between physics and astronomy textbooks, this book provides step-by-step physical and mathematical development of fundamental astrophysical processes underlying a wide range of phenomena in stellar, galactic, and extragalactic astronomy. The book has been written for upper-level undergraduates and beginning graduate students, and its strong pedagogy ensures solid mastery of each process and application. It contains over 150 tutorial figures, numerous examples of astronomical measurements, and 201 exercises. Topics covered include the KeplerNewton problem, stellar structure, binary evolution, radiation processes, special relativity in astronomy, radio propagation in the interstellar medium, and gravitational lensing. Applications presented include Jeans length, Eddington luminosity, the cooling of the cosmic microwave background (CMB), the SunyaevZeldovich effect, Doppler boosting in jets, and determinations of the Hubble constant. This text is a stepping stone to more specialized books and primary literature. Password-protected solutions to the exercises are available to instructors at www.cambridge.org/9780l£