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Work and Energy Work = Fd cos Where F is the force d is the displacement is the angle between the force and the direction F d Work = Fd cos = ZERO in this situation!!! F d Energy – What is it? The ability to do work Types of Energy Kinetic Gravitational Potential Elastic Potential Heat Light Sound Electrical Chemical Nuclear Mechanical Energy Energy - Kinetic Kinetic Energy This is the energy that an object possesses due to its motion If the mass of a body is m and its speed is v then its kinetic energy is given by KE = ½ m v2 Work-Energy Principle W = ΔKE = ½ 2 mvf –½ 2 mvi The net work done on an object (by a net force) is equal to a change in kinetic energy of the object Energy - Potential • Potential Energy – the energy of an object due to its position, shape, or condition • An system acquires potential energy when work is done against another force Energy - Potential Gravitational Potential Energy This is the energy of an object associated with its position in a gravitational field (work done against the force of gravity to put it there) GPE = mgh m = mass of the object h = height of object above some fixed position g = the acceleration due to gravity Energy - Potential Elastic Potential Energy This is the energy that an object possesses due to its position of being stretched or deformed FOR A SPRING (or similar)… EPE= ½ k x2 x = amount of stretch k = the spring constant (a characteristic of the object being stretched) The Principle of Conservation of Energy Energy can be transformed from one form to another, but it cannot be created nor destroyed, i.e. the total energy of a system is constant Energy is measured in joules and it is a scalar quantity