In (Figure 1), the man has a mass of 65 kg and the crate has a mass of 110 kg. The coefficient of static friction betwee

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In Figure 1 The Man Has A Mass Of 65 Kg And The Crate Has A Mass Of 110 Kg The Coefficient Of Static Friction Betwee 1 (33.13 KiB) Viewed 49 times

In Figure 1 The Man Has A Mass Of 65 Kg And The Crate Has A Mass Of 110 Kg The Coefficient Of Static Friction Betwee 2 (14.89 KiB) Viewed 49 times

In Figure 1 The Man Has A Mass Of 65 Kg And The Crate Has A Mass Of 110 Kg The Coefficient Of Static Friction Betwee 3 (12.9 KiB) Viewed 49 times

In (Figure 1), the man has a mass of 65 kg and the crate has a mass of 110 kg. The coefficient of static friction between his shoes and the ground is Hy = 0.4 and between the crate and the ground is Le = 0.3. Figure < 1 of 1 30
Part A Determine if the man is able to move the crate using the rope-and-pulley system shown. The man cannot move the crate. The man can move the crate.
Part B Prove your answer to part A by calculating the static frictional force F between the man's shoes and the ground required to move the crate and the maximum static frictional force which can be doveloped Express your answers in newtons to three significant figures separated by a com ma. h 2 VO AED 11 vec N FF=