Chapter 8: Potential Energy and Conservation of EnergyIntroductionPotential Energy and Conservation of EnergyConservative ForcesGravitational and Elastic Potential EnergyConservation of (Mechanical) EnergyPotential Energy CurveExternal ForcesWork and Potential EnergyPotential EnergyGeneral FormGravitational Potential EnergyElastic Potential Energy(Non-)Conservative Forces The system consists of two or more objects. A force acts between a particle–like object in the system and the rest of the system. When the system configuration changes, the force does work W1on the particle–like object, transferring energy between the kinetic energy K of the object and some other form of energy of the system. When the configuration change is reversed, the force reverses the energy transfer, doing work W2in the process. W1= –W2D conservative forcePath Independence of Conservative Forces The net work done by a conservative force on a particle moving around every closed path is zero. The work done by a conservative force on a particle moving between two points does not depend on the path taken by the particle.Sample Problem 8-1: A 2.0 kg block of cheese that slides along a frictionless track from a to point b. The cheese travels through a total distance of 2.0 m, and a net vertical distance of 0.8 m. How much work is done on the cheese by the gravitational force?Conservation of Mechanical EnergyMechanical EnergyConservation of Mechanical EnergyIn an isolated system where only conservative forces cause energy changes, the kinetic and potential energy can change, but their sum, the mechanical energy Emecof the system, cannot change.Potential Energy Curve Turning Points Equilibrium Points– Neutral Equilibrium– Unstable Equilibrium– Stable EquilibriumA plot of U(x), the potential energy function of a system containing a particle confined to move along the x axis. There is no friction, so mechanical energy is conserved.1D MotionConservation of Energy The total energy of a system can change only by amounts of energy that are transferred to or from the system. The total energy E of an isolated system cannot change.Thermal
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