The stone has a mass of 800 kg and center of gravity at G. It rests on a pad at A and a roller at B. The padis fixed to the ground and has a compressed height of 30 mm, a width of 140 mm, and a length of150 mm. If the coefficient of static friction between the pad and the stone is µg = 0.8 determine theapproximate horizontal displacement of the stone, caused by the shear strains in the pad before the stonebegins to slip. Assume the normal force at A acts 1.5 m from G as shown. The pad is made from a materialhaving E = 4 MPa and v = 0.35.0.4 m0.3 mB-1.25 m-F1.5 m-A

Horizontal displacement of stone is:

The stone has a mass of 800 kg and center of gravity at G. It rests on a pad at A and a roller at B. The pad is fixed to the ground and has a compressed height of 30 mm, a width of 140 mm, and a length of 150 mm. If the coefficient of static friction between the pad and the stone is µ̟ = 0.8 determine the approximate horizontal displacement of the stone, caused by the shear strains in the pad before the stone begins to slip. Assume the normal force at A acts 1.5 m from G as shown. The pad is made from a material having E = 4 MPa and v = 0.35. 0.4 m T. G 0.3 m B-1.25 m-1.5 m-A

The stone has a mass of 800 kg and center of gravity at G. It rests on a pad at A and a roller at B. The pad is fixed to the ground and has a compressed height of 30 mm, a width of 140 mm, and a length of 150 mm. If the coefficient of static friction between the pad and the stone is µ̟ = 0.8 determine the approximate horizontal displacement of the stone, caused by the shear strains in the pad before the stone begins to slip. Assume the normal force at A acts 1.5 m from G as shown. The pad is made from a material having E = 4 MPa and v = 0.35. 0.4 m T. G 0.3 m B-1.25 m-1.5 m-A

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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