Practice Which energy diagram represents the energies of a 50 kg object as it falls from thetop of Niagara Falls (100 m) if it started from rest (Neglect non-conservative forces)?OOOOENERGY (J)ENERGY (J)ENERGY (J)ENERGY (J)490000ENERGY AT TOP024500490004900049000ENERGY AT TOP245004900049000ENERGY AT TOP30000ENERGY AT TOP122501225036750ENERGY DURING1225012250■36750IGPE KE Total MEGPE KE Total ME49000■367504900036750ENERGY DURING FALL ENERGY AT BOTTOMIGPEKE Total ME49000ENERGY AT BOTTOM49000490004900024500GPEKE Total ME4900024500ENERGY DURING FALL ENERGY AT BOTTOM49000490000006|30000ENERGY DURING FALL ENERGY AT BOTTOM What types of energy are being converted in the picture below? Drag the type of energy to the correct box.Inside a Hydropower PlantWHERE+=+---:: Electrical Energy :: Kinetic Energy©2001 HowStuffWorksGravitational Potential Energy

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Description: Practice Which energy diagram represents the energies of a 50 kg object as it falls from thetop of Niagara Falls (100 m) if it started from rest (Neglect non-conservative forces)?OOOOENERGY (J)ENERGY (J)ENERGY (J)ENERGY (J)490000ENERGY AT TOP02450049

Mass (m) = 50 kgHeight (h) = 100 mRequired:Kinetic energy, gravitational potential energy and total…

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Which energy diagram represents the energies of a 50 kg object as it falls from the top of Niagara Falls (100 m) if it started from rest (Neglect non-conservative forces)? O O O O ENERGY (J) ENERGY (J) ENERGY (J) ENERGY (J) 49000 0 ENERGY AT TOP 24500 49000 0006>> 49000 ENERGY AT TOP 24500 49000 49000 ENERGY AT TOP 30000 ENERGY AT TOP 12250 12250 36750 ENERGY DURING 12250 36750 12250 GPE KE Total ME 36750 49000 36750 49000 GPE KE Total ME 0 ENERGY DURING FALL ENERGY AT BOTTOM 49000 ENERGY AT BOTTOM 49000 GPEKE Total ME 0006 0006 24500 GPEKE Total ME 49000 24500 ENERGY DURING FALL ENERGY AT BOTTOM 49000 0006 49000 30000 ENERGY DURING FALL ENERGY AT BOTTOM

Which energy diagram represents the energies of a 50 kg object as it falls from the top of Niagara Falls (100 m) if it started from rest (Neglect non-conservative forces)? O O O O ENERGY (J) ENERGY (J) ENERGY (J) ENERGY (J) 49000 0 ENERGY AT TOP 24500 49000 0006>> 49000 ENERGY AT TOP 24500 49000 49000 ENERGY AT TOP 30000 ENERGY AT TOP 12250 12250 36750 ENERGY DURING 12250 36750 12250 GPE KE Total ME 36750 49000 36750 49000 GPE KE Total ME 0 ENERGY DURING FALL ENERGY AT BOTTOM 49000 ENERGY AT BOTTOM 49000 GPEKE Total ME 0006 0006 24500 GPEKE Total ME 49000 24500 ENERGY DURING FALL ENERGY AT BOTTOM 49000 0006 49000 30000 ENERGY DURING FALL ENERGY AT BOTTOM

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Problem 4: Speed deamplifier. In the figure above on the right, block 1 of mass m1 slides along an x-axis on a frictionless floor at speed 4 m/sec.Then it undergoes a one-dimensional elastic collision with stationary block 2 of mass m2 = 2m1. Next, block 2 undergoes a one-dimensional elastic collision with stationary block 3 of mass mz = 4m1. What then is the speed of block 3? Answer: 16 m/sec or 1.78 m/sec.