A block of mass m 2.50 kg is lying on an incline with friction. Assume the coefficient of friction to be µ, = 0.420, µk = 0.170. A constant force of magnitude F is applied to the block at an angle a = 15.0° relative to the horizontal. See the figure below. The magnitude of force F is increased until the block begins to slide up the incline. Assume going up the incline to be positive. Further assume the incline angle to be 3 = 21.0° a) Draw free body diagram at the instant block slides. A, Mk b) What is the minimum force Fmin required to make the block to slide? c) What is the normal force acting on the block at the instant it begins to slide?

A block of mass m 2.50 kg is lying on an incline with friction. Assume the coefficient of friction to be µ, = 0.420, µk = 0.170. A constant force of magnitude F is applied to the block at an angle a = 15.0° relative to the horizontal. See the figure below. The magnitude of force F is increased until the block begins to slide up the incline. Assume going up the incline to be positive. Further assume the incline angle to be 3 = 21.0° a) Draw free body diagram at the instant block slides. A, Mk b) What is the minimum force Fmin required to make the block to slide? c) What is the normal force acting on the block at the instant it begins to slide?

Name: A block of mass m = 2.50 kg is lying on an incline with friction. Ass
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Description: A block of mass m = 2.50 kg is lying on an incline with friction. Assume the coefficient offriction to be µ, = 0.420, µk = 0.170. A constant force of magnitude F is applied to the block at an anglea = 15.0° relative to the horizontal. See the figure

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Newton’s laws of motion describe the relationship between the motion of an object and forces acting on it. Newton’s law of motion has two types as follows:

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Question

A block of mass m = 2.50 kg is lying on an incline with friction. Assume the coefficient of
friction to be µ, = 0.420, µk = 0.170. A constant force of magnitude F is applied to the block at an angle
a = 15.0° relative to the horizontal. See the figure below. The magnitude of force F is increased until the
block begins to slide up the incline. Assume going up the incline to be positive. Further assume the
incline angle to be 3 = 21.0°
a) Draw free body diagram at the instant block slides.
A, Mx
b) What is the minimum force Fmin required to make the block to slide?
c) What is the normal force acting on the block at the instant it begins to slide?
d) Continuing from part (b), what is the speed of the block after traveling a distance L = 5.00 m on the
incline?

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