A blick of mass m is initially at rest at the highest point of an inclined plane, which has a height of 6.8 m and has an angle of 0=16 degrees with respect to the horizontal. After it has been released, you perceive it to be moving at v=0.55 m/s distance d afteer the end of the inclined plane as shown. The coefficient of kinetic friction between the block and the plane is up=0.1, and the coefficient of friction on the horizontal surfacee is ur=0.2. I already answered part (a) and just need help with part (b): a. what is the speed of the block, in meters per second, just after it leaves the inclined plane? 9.16 m/s (answer) b. Find the distance,d, in meters?
A blick of mass m is initially at rest at the highest point of an inclined plane, which has a height of 6.8 m and has an angle of 0=16 degrees with respect to the horizontal. After it has been released, you perceive it to be moving at v=0.55 m/s distance d afteer the end of the inclined plane as shown. The coefficient of kinetic friction between the block and the plane is up=0.1, and the coefficient of friction on the horizontal surfacee is ur=0.2. I already answered part (a) and just need help with part (b): a. what is the speed of the block, in meters per second, just after it leaves the inclined plane? 9.16 m/s (answer) b. Find the distance,d, in meters?
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A blick of mass m is initially at rest at the highest point of an inclined plane, which has a height of 6.8 m and has an angle of 0=16 degrees with respect to the horizontal. After it has been released, you perceive it to be moving at v=0.55 m/s distance d afteer the end of the inclined plane as shown. The coefficient of kinetic friction between the block and the plane is up=0.1, and the coefficient of friction on the horizontal surfacee is ur=0.2.
I already answered part (a) and just need help with part (b):
a. what is the speed of the block, in meters per second, just after it leaves the inclined plane? 9.16 m/s (answer)
b. Find the distance,d, in meters?
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