In Figure, a block of ice slides down a frictionless ramp at angle 0 = 52° while an ice worker pulls on the block (via a rope) with a force F, that has a magnitude of 73N and is directed up the ramp. As the block slides through distance d = 1.90 m along the ramp, its kinetic energy increases by 104 J. How much greater would its kinetic energy have been if the rope had not been attached to the block? (Your result must be in Joules and include 1 digit after the decimal point. Maximum of 2% of error is accepted in your answer. Take g=9.8 m/s?.) F,

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Chapter1: Units, Trigonometry. And Vectors
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In Figure, a block of ice slides down a frictionless ramp at angle 0 = 52° while an ice worker pulls on the block
(via a rope) with a force F, that has a magnitude of 73N and is directed up the ramp. As the block slides through
distance d = 1.90 m along the ramp, its kinetic energy increases by 104 J. How much greater would its kinetic
energy have been if the rope had not been attached to the block? (Your result must be in Joules and include 1
digit after the decimal point. Maximum of 2% of error is accepted in your answer. Take g=9.8 m/s?.)
F,
Transcribed Image Text:In Figure, a block of ice slides down a frictionless ramp at angle 0 = 52° while an ice worker pulls on the block (via a rope) with a force F, that has a magnitude of 73N and is directed up the ramp. As the block slides through distance d = 1.90 m along the ramp, its kinetic energy increases by 104 J. How much greater would its kinetic energy have been if the rope had not been attached to the block? (Your result must be in Joules and include 1 digit after the decimal point. Maximum of 2% of error is accepted in your answer. Take g=9.8 m/s?.) F,
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