Explanation Given information: The mass of automobile ( m ) is 2 Mg. The inclination angle ( θ ) is 30 ° . The co-efficient of the static friction ( μ s ) is 0.3. Calculation: Show the free body diagram of the automobile as in Figure 1. Determine the towing force required to move the car ( F ) using the Equations of equilibrium. Along the horizontal direction: ∑ F x = 0 F B − F cos θ = 0 Substitute 0.3 N B for F B and 30 ° for θ . 0.3 N B − F cos 30 ° = 0 F = 0.3 N B cos 30 ° F = 0.3464 N B (1) Along the vertical direction: ∑ F y = 0 N A + N B + F sin θ − w = 0 N A + N B + F sin θ − m × g = 0 Substitute 0.3464 N B for F , 30 ° for θ , 2 Mg for m , and 9.81 m/s 2 for g . N A + N B + 0.3464 N B sin 30 ° − ( 2 Mg × 1 , 000 kg 1 Mg ) × 9.81 = 0 N A + N B + 0 .1732 N B − 19,620 = 0 N A + 1.1732 N B = 19,620 (2) Take the summation of moment about A which is equal to zero. ∑ M A = 0 μ s × F cos θ − F sin θ ( l 1 ) + N B ( l 2 + l 3 ) − w ( l 2 ) = 0 μ s × F cos θ − F sin θ ( l 1 ) + N B ( l 2 + l 3 ) − m × g ( l 2 ) = 0 Here, the distance between front of the car to A is l 1 , the distance between the center of gravity and A is l 2 , and the distance between the center of gravity and B is l 3

Statics and Mechanics of Materials (5th Edition)

5th Edition

ISBN: 9780134382593

Author: Russell C. Hibbeler

Publisher: PEARSON

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Chapter 4.8, Problem 46P

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Find the towing force required to move the car (F).

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Statics and Mechanics of Materials (5th Edition)

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Find the towing force required to move the car ( F ).

Solution Summary: The author calculates the towing force required to move the car using the Equations of equilibrium.

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