Explanation Given: The mass of the crate ( m ) is 50 kg. The co-efficient of static friction ( μ s ) is 0.25. The angle of the force ( θ ) is 30 ° . Crate A: Show the free body diagram of crate A as in Figure (1). Using Figure (1), Determine the normal reaction at A ( N A ) using the equation of equilibrium. Along the vertical direction: ∑ F y = 0 N A − W = 0 N A − m g = 0 (I) Here, the acceleration due to gravity is g . Determine the tractive force ( T ) using the equation of equilibrium. Along the horizontal direction: ∑ F x = 0 T − μ s N A = 0 (II) Crate B: Show the free body diagram of crate B as in Figure (2). Using Figure (2), Determine the normal reaction at B ( N B ) using the equation of equilibrium. Along the vertical direction: ∑ F y = 0 N B + P sin θ − W = 0 N B + P sin θ − m g = 0 (III) Determine the maximum force ( P ) using the equation of equilibrium. Along the horizontal direction: ∑ F x = 0 P cos θ − μ s N B − T = 0 (IV) Conclusion: Substitute 50 kg for m and 9

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Chapter 8 Solutions

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The maximum force ( P ).

Solution Summary: The author shows the free body diagram of crate A as in Figure (1). Determine the normal reaction at A using the equation of equilibrium.

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Chapter 8 Solutions