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Unformatted text preview: Energy Kinetic Potential Gravitational Potential Elastic/Spring Potential Mechanical vs nonmechanical Energy Conservation E 1 = E 2 = constant E 1 = E 2 + E lost Conservative Forces NonConservative Forces Power 7. Momentum Ch 6 p i = p f p = m v Impulse = F t = p = mv f mv i Collisions: elastic (p and KE conserved) inelastic (p conserved, KE lost) perfectly inelastic (p conserved, KE lost) reverse inelastic (p conserved, KE gained) 8. Uniform Circular Motion Ch 7 Centripetal acceleration and force What is the force maintaining the circle? V = 2r/T Period and Frequency Newtons Universal Law of Gravitation...
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This note was uploaded on 03/20/2012 for the course GEN 100 taught by Professor Smith during the Spring '12 term at Purdue UniversityWest Lafayette.
 Spring '12
 Smith

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