In the figure here, a block of ice slides down a frictionless ramp at angle 0=53.0° while an ice worker pulls on the block (via a rope) with a force that has a magnitude of 56.0 N and is directed up the ramp. As the block slides down through distance d = 0.460 m along the ramp, its kinetic energy increases by 80.0 J. How much greater would its kinetic energy have been if the rope had not been attached to the block? fonda

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Chapter1: Units, Trigonometry. And Vectors
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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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In the figure here, a block of ice slides down a frictionless ramp at angle 0-53.0° while an ice worker
pulls on the block (via a rope) with a force that has a magnitude of 56.0 N and is directed up the
ramp. As the block slides down through distance d = 0.460 m along the ramp, its kinetic energy
increases by 80.0 J. How much greater would its kinetic energy have been if the rope had not been
attached to the block?
poned
Transcribed Image Text:In the figure here, a block of ice slides down a frictionless ramp at angle 0-53.0° while an ice worker pulls on the block (via a rope) with a force that has a magnitude of 56.0 N and is directed up the ramp. As the block slides down through distance d = 0.460 m along the ramp, its kinetic energy increases by 80.0 J. How much greater would its kinetic energy have been if the rope had not been attached to the block? poned
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