and friction (X) is 221.5J, the mass is 51.00kg and the initial speed was 4.607 m/s what is the final speed? Be sure If the work done by the applied force is 1216J, the amount that the applied force exceeds the work of gravity c) to show your substation into your equations. d) Find an equation for the coefficient of friction

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and friction (X) is 221.5J, the mass is 51.00kg and the initial speed was 4.607 m/s what is the final speed? Be sure
If the work done by the applied force is 1216J, the amount that the applied force exceeds the work of gravity
c)
to show your substation into your equations.
d) Find an equation for the coefficient of friction
Transcribed Image Text:and friction (X) is 221.5J, the mass is 51.00kg and the initial speed was 4.607 m/s what is the final speed? Be sure If the work done by the applied force is 1216J, the amount that the applied force exceeds the work of gravity c) to show your substation into your equations. d) Find an equation for the coefficient of friction
sum of the other two forces. The force the worker applies is constant over the distance and is equal to the value F.
4) A cart of mass m1 reaches the bottom of a ramp with an angle 0, going a speed v, and is pulled to the top of a ramp
on the cart along the ramp by X Joules (Hint: This means you can write an equation relating the applied force to the
at neight n with an applied force that exceeds the work done bv the force of friction plus the work done by gravity
e m the space below the necessary diagrams to approach all parts of this problem (there should be two).
b) Find an equation for the speed of the cart at the top of the ramp.
Transcribed Image Text:sum of the other two forces. The force the worker applies is constant over the distance and is equal to the value F. 4) A cart of mass m1 reaches the bottom of a ramp with an angle 0, going a speed v, and is pulled to the top of a ramp on the cart along the ramp by X Joules (Hint: This means you can write an equation relating the applied force to the at neight n with an applied force that exceeds the work done bv the force of friction plus the work done by gravity e m the space below the necessary diagrams to approach all parts of this problem (there should be two). b) Find an equation for the speed of the cart at the top of the ramp.
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