(4) Consider the block below, which is being dragged over a horizontal surface by a constant force F=5N. The friction coefficient between block and surface is P = 10 kg/s and the mass of the block is 2 kg. Att 0, the horizontal position x and velocity x' of the block are both zero. Write the differential equation that represents the position x of the block as a function of time. Solve the differential equation with the initial conditions to find x(t). M = 2 kg F = 5 N P = 10 kg/s
(4) Consider the block below, which is being dragged over a horizontal surface by a constant force F=5N. The friction coefficient between block and surface is P = 10 kg/s and the mass of the block is 2 kg. Att 0, the horizontal position x and velocity x' of the block are both zero. Write the differential equation that represents the position x of the block as a function of time. Solve the differential equation with the initial conditions to find x(t). M = 2 kg F = 5 N P = 10 kg/s
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Transcribed Image Text:(4) Consider the block below, which is being dragged over a horizontal surface by a
constant force F = 5N. The friction coefficient between block and surface is P = 10 kg/s
and the mass of the block is 2 kg. Att 0, the horizontal position x and velocity x' of the
block are both zero.
%3!
Write the differential equation that represents the position x of the block as a function of
time. Solve the differential equation with the initial conditions to find x(t).
M = 2 kg
F = 5 N
P = 10 kg/s
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