runk? Explain your reasoning. 2. A 4.0 kg block of wood sits on a table (Figure 5). A string is tied to the wood, running over a pulley and down to a hanging object. The greatest mass that can be hung from the string without moving the block of wood is 1.8 kg. Calculate the coefficient of static friction between the block of wood and the table. [ans: 0.45] Figure 5

question 2 answer please

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1. Two trunks sit side by side on the floor. The larger trunk (52 kg) is to the left of the smaller trunk (34 kg). A person pushes on the larger trunk horizontally toward the right. The coefficient of static friction between the trunks and the floor is 0.35. ™ (a) Determine the magnitude of the maximum force the person can exert without moving either trunk. [ans: 290 N] (b) Calculate the force the larger trunk exerts on the smaller trunk. [ans: 120 N [right]] (c) Would either answer change if the person pushed in the opposite direction on the smaller trunk? Explain your reasoning. 2. A 4.0 kg block of wood sits on a table (Figure 5). A string is tied to the wood, running over a pulley and down to a hanging object. The greatest mass that can be hung from the string without moving the block of wood is 1.8 kg. Calculate the coefficient of static friction between the block of wood and the table. [ans: 0.45] 4.0 kg Figure 5 pulley 1.8 kg