Explanation Given information : The weight ( W ) of the plate is 500 lb. The load ( P ) acting on the plate is 200 lb. Show the free body diagram of the uniform plate as in Figure (1). Use Figure (1). Apply the equation of equilibrium along the z axis. ∑ F z = 0 T A + T B + T C − P − W = 0 (I) Take the moment about the x axis. ∑ M x = 0 T A ( x 1 ) + T C ( x 2 ) − W ( x 3 ) − P ( x 4 ) = 0 (II) Here, the horizontal distance between cables B and A is x 1 , the horizontal distance between cables B and C is x 2 , the center of gravity of the plate about x axis is x 3 , and the horizontal distance between the load and cable B is x 4 . Take the moment about the y axis. ∑ M y = 0 − T B ( y 1 ) − T C ( y 2 ) − W ( y 3 ) − P ( y 4 ) = 0 (III) Here, the vertical distance between cable A and B is y 1 , the vertical distance between A and C is y 2 , the center of gravity of the plate about the y axis is y 3 , the vertical distance of the load acting is y 4 . Calculations: Substitute 200 lb for P and 500 lb for W in Equation (I). T A + T B + T C − 200 − 500 = 0 T A + T B + T C = 700 (IV) Substitute 3.0 ft for x 1 , 3.0 ft for x 2 , 500 lb for W , 1.5 ft for x 3 , 200 lb for P , and 3.0 ft for x 4 in Equation (II). T A ( 3.0 ) + T C ( 3.0 ) − 500 ( 1

Engineering Mechanics: Statics & Dynamics (14th Edition)

14th Edition

ISBN: 9780133915426

Author: Russell C. Hibbeler

Publisher: PEARSON

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Chapter 5.7, Problem 7FP

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The tension in each of the supporting cables.

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Sign in PDF Lecture W09.pdf PDF MMB241 - Tutorial L9.pdf File C:/Users/KHULEKANI/Desktop/mmb241/MMB241%20-%20Tutorial%20L9.pdf II! Draw | I│Alla | Ask Copilot + of 4 D Topic: Kinetics of Particles: - Forces in dynamic system, Free body diagram, newton's laws of motion, and equations of motion. TQ1. The 10-kg block is subjected to the forces shown. In each case, determine its velocity when t=2s if v 0 when t=0 500 N F = (201) N 300 N (b) TQ2. The 10-kg block is subjected to the forces shown. In each case, determine its velocity at s-8 m if v = 3 m/s at s=0. Motion occurs to the right. 40 N F = (2.5 s) N 200 N 30 N (b) TQ3. Determine the initial acceleration of the 10-kg smooth collar. The spring has an unstretched length of 1 m. 1 σ Q ☆ Q 6 ا الى ☑

Sign in PDF Lecture W09.pdf PDF MMB241 - Tutorial L9.pdf File C:/Users/KHULEKANI/Desktop/mmb241/MMB241%20-%20Tutorial%20L9.pdf II! Draw | I│Alla | Ask Copilot + 4 of 4 | D TQ9. If motor M exerts a force of F (10t 2 + 100) N determine the velocity of the 25-kg crate when t kinetic friction between the crate and the plane are μs The crate is initially at rest. on the cable, where t is in seconds, 4s. The coefficients of static and 0.3 and μk = 0.25, respectively. M 3 TQ10. The spring has a stiffness k = 200 N/m and is unstretched when the 25-kg block is at A. Determine the acceleration of the block when s = 0.4 m. The contact surface between the block and the plane is smooth. 0.3 m F= 100 N F= 100 N k = 200 N/m σ Q Q ☆ ا الى 6 ☑

Chapter 5 Solutions

Engineering Mechanics: Statics & Dynamics (14th Edition)

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The tension in each of the supporting cables.

Solution Summary: The author shows the free body diagram of the uniform plate as in Figure (1). Apply the equation of equilibrium along the z axis.

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The tension in each of the supporting cables.

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Chapter 5 Solutions