Physics for Scientists and Engineers
Physics for Scientists and Engineers combines outstanding pedagogy with a clear and direct narrative and applications that draw the reader into the physics. The new edition features an unrivaled suite of media and on-line resources that enhance the understanding of physics. Many new topics have been incorporated such as: the Otto cycle, lens combinations, three-phase alternating current, and many more. New developments and discoveries in physics have been added including the Hubble space telescope, age and inflation of the universe, and distant planets. Modern physics topics are often discussed within the framework of classical physics where appropriate. For scientists and engineers who are interested in learning physics.
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Physics for Scientists & Engineers with Modern Physics, Volume 3
Douglas C. Giancoli
No preview available - 2008
acceleration air resistance amplitude angle angular momentum Assume atoms average velocity axis ball body Calculate centripetal acceleration Chapter coefficient collision components compressed conservation cord curve Determine direction displacement distance Earth engine entropy equal equation equilibrium estimate Example exerts a force FIGURE fluid force exerted force of gravity forces acting free-body diagram frequency friction force given heat horizontal ideal gas ideal gas law inertia inertial reference frame initial kinetic energy kinetic friction km/h length longitudinal wave magnitude mass maximum molecules motion Newton's second law Newton's third law normal force object moving orbit particle perpendicular PHYSICS APPLIED plane position potential energy pressure Problem projectile radius reference frame rest rotation Section shown in Fig SOLUTION solve spring static friction surface temperature tension tion torque traveling units upward vector vertical vibration volume wave weight zero