Question

A man standing stationary with respect to a horizontal conveyor belt which is accelerating with 1 m/s^2 what is the net force on the man. if the coefficient of static friction between the man's shoes and belt is 0.2 and up to what acceleration of the best can man continue remain stationary relative to the belt

Answer 1

Mass of the man, m = 65 kg

Acceleration of the belt, a = 1 m/s2

Coefficient of static friction, μ = 0.2

The net force F, acting on the man is given by Newton’s second law of motion as:

= 65 × 1 = 65 N

The man will continue to be stationary with respect to the conveyor belt until the net force on the man is less than or equal to the frictional force fs, exerted by the belt, i.e.,





∴a' = 0.2 × 10 = 2 m/s2

Therefore, the maximum acceleration of the belt up to which the man can stand stationary is 2 m/s2.

Answer 2

Answer:

Mass of the man, m = 65 kg

Acceleration of the belt, a = 1 m/s2

Coefficient of static friction, μ = 0.2

The net force F, acting on the man is given by Newton’s second law of motion as:

= 65 × 1 = 65 N

The man will continue to be stationary with respect to the conveyor belt until the net force on the man is less than or equal to the frictional force fs, exerted by the belt, i.e.,





∴a' = 0.2 × 10 = 2 m/s2

Therefore, the maximum acceleration of the belt up to which the man can stand stationary is 2 m/s2.

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Explanation: