A 20.0 kg block is projected up an inclined slope by a force of 1250N acting on the block over a distance of 25cm. The block comes to a standstill as it reaches the top. The slope is inclined at 15° and the coefficient of kinetic friction between the block and the slope is 0.400. Draw a before-and-after pictorial representation (before being released and at rest at top of a. slope). b. Draw a free body diagram of the block on the incline (not in contact with spring). Insert the displacement vector of the block onto your free body diagram. c. Draw an energy bar chart representing the energy states of the system at the initial and final positions. d. Solve for the distance the block moves up the slope.
A 20.0 kg block is projected up an inclined slope by a force of 1250N acting on the block over a distance of 25cm. The block comes to a standstill as it reaches the top. The slope is inclined at 15° and the coefficient of kinetic friction between the block and the slope is 0.400. Draw a before-and-after pictorial representation (before being released and at rest at top of a. slope). b. Draw a free body diagram of the block on the incline (not in contact with spring). Insert the displacement vector of the block onto your free body diagram. c. Draw an energy bar chart representing the energy states of the system at the initial and final positions. d. Solve for the distance the block moves up the slope.
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