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Published byMuriel Morrison Modified over 9 years ago
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Conservation of Energy System
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Energy of Gravitational Interaction -- Gravitational Potential Energy If the system contains Earth and an object (or objects), then the system has gravitational potential energy. Gravitational potential energy depends on distance: greater distance, greater potential energy; less distance, less potential energy. Earth if y << Radius of Earth
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Closed and Open Systems System closed system open system
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System Conservation of Mechanical Energy Earth System is Earth and the rock; assume no energy inputs or outputs. As the rock falls, the system loses gravitational potential energy, and the system gains kinetic energy.
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Conservation of Mechanical Energy System Earth As the ball falls, the total energy is constant. System is Earth and the rock; assume no energy inputs or outputs.
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Tips on solving conservation of energy problems 1.Sketch a picture of the situation showing the system at two different states: 1 and 2. 2.Record any knowns such as y 1, y 2, v 1, and v 2. 3.Sketch bar graphs showing kinetic and potential energy. Note: they should add so that they equal the total energy. 4.Solve for the unknown.
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Example The Kingda Ka roller coaster goes to the top of a 139-m tall hill. It drops to a height of 12 m above the ground. What is its speed at the bottom, if its speed at the top is 1.0 m/s?
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Poll Does your answer to the previous question depend on whether the roller coaster is full of people? (In other words, does your answer depend on mass?) 1.yes 2.no
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Poll Does the speed of the roller coaster at the bottom of the hill depend on whether it is frictionless or not? 1.yes 2.no
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Example Suppose that the mass of the Kingda Ka rollercoaster, full of people, is 1800 kg. If its speed at the bottom is 45 m/s, how much mechanical energy is lost due to friction as it travels down the hill?
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Poll Does your answer to the previous question depend on whether the roller coaster is full of people? (In other words, does your answer depend on mass?) 1.yes 2.no
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Two identical blocks are simultaneously released from the same height above a level floor. Block 1 reaches the floor by dropping straight down. Block 2 reaches the floor by sliding down a frictionless ramp. Which of the following correctly compares the two motions? 1 2 A. Both blocks reach the ground at the same time with the same speed B. Block 2 reaches the ground later but with the same speed. C. Block 2 reaches the ground later and with less speed. D. Block 2 reaches the ground at the same time but with less speed.
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