A 4 kg block on a rough horizontal surface is pulled with F = 11.8 N and μ_k = 0.25. What is the resulting acceleration if it is already sliding?

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Study for the Newton's Laws of Motion Test. Engage with multiple choice and interactive questions, each hinting at concepts with detailed explanations. Master the principles and ace your exam!

Multiple Choice

A 4 kg block on a rough horizontal surface is pulled with F = 11.8 N and μ_k = 0.25. What is the resulting acceleration if it is already sliding?

When an object is sliding on a horizontal surface, the friction force that opposes the motion is the kinetic friction, with magnitude f_k = μ_k N. The normal force on a horizontal plane is the weight, N = mg.

Here, m = 4 kg, g ≈ 9.8 m/s^2, so N = 4 × 9.8 = 39.2 N. The kinetic friction is f_k = 0.25 × 39.2 = 9.8 N, acting opposite the pull.

The net force along the direction of the pull is F_net = 11.8 N − 9.8 N = 2.0 N. The acceleration follows from Newton’s second law: a = F_net / m = 2.0 / 4 = 0.5 m/s^2.

Thus the block accelerates in the direction of the pull at about 0.5 m/s^2.

A 4 kg block on a rough horizontal surface is pulled with F = 11.8 N and μ_k = 0.25. What is the resulting acceleration if it is already sliding?

Study for the Newton's Laws of Motion Test. Engage with multiple choice and interactive questions, each hinting at concepts with detailed explanations. Master the principles and ace your exam!

A 4 kg block on a rough horizontal surface is pulled with F = 11.8 N and μ_k = 0.25. What is the resulting acceleration if it is already sliding?

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