Explanation Given data: Refer to Figure P8.14 in the textbook for the position of the wind turbine. Mass of the wind turbine ( m Turbine ) is 1,000 kg. Mass of the tower ( m Tower ) is 700 kg. Length of the tower ( L ) is 24 m. Distance at which the piston connected from the pivot ( d ) is 3.0 m. The angle between tower and the piston ( θ 1 ) is 75 ° . The angle between tower and the horizontal line is 10 ° . Formula used: Write the expression for static equilibrium condition of the torque as follows. ∑ τ = 0 (1) Here, ∑ τ is the sum of the torques acting on any object. Write the expression for torque in terms of force and distance as follows. τ = F d (2) Here, F is the force, and d is the distance. Write the expression for force due to the weight of the object as follows. w = m g (3) Here, m is the mass of the object, and g is the acceleration due to gravity, which is 9.8 m s 2 . Explanation: From the given data, the tower is raised very slowly at constant speed. Therefore, the given system is considered as in equilibrium condition. Redraw the given figure to compute the torques as shown in Figure 1. From the Figure 1, L is the length of the tower, d is the distance between piston tot the pivot, F → P is the force applied by the piston to raise the tower, w → Tower is the weight of the tower, which acts in the downward direction, w → Turbine is the weight of the turbine, which acts in the downward direction, θ 1 is the angle between tower and the piston, and θ 2 is the angle between tower and the vertical component. From the given figure, the angle between tower and the vertical component ( θ 2 ) is determined as follows. θ 2 = 90 ° − 10 ° = 80 ° Calculation of force due to weight of the tower: Modify the expression in equation (3) to find the force due to weight of the tower as follows. w Tower = m Tower g Substitute 700 kg for m Tower , and 9.8 m s 2 for g , w Tower = ( 700 kg ) ( 9.8 m s 2 ) = 6 , 860 kg ⋅ m s 2 = 6 , 860 N { ∵ 1 kg ⋅ m s 2 = 1 N } Calculation of force due to weight of the turbine: Modify the expression in equation (3) to find the force due to weight of the turbine as follows. w Turbine = m Turbine g Substitute 1,000 kg for m Turbine , and 9

College Physics: A Strategic Approach Plus Mastering Physics with Pearson eText -- Access Card Package (4th Edition) (What's New in Astronomy & Physics)

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Author: Randall D. Knight (Professor Emeritus), Brian Jones, Stuart Field

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Chapter 8, Problem 14P

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To find: The force applied by the piston to raise the tower.

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College Physics: A Strategic Approach Plus Mastering Physics with Pearson eText -- Access Card Package (4th Edition) (What's New in Astronomy & Physics)

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