in problem 3.52, consider the following. Do not change the distance between A and B, and B and C.Decreasethediameter of one of the shafts so that the maximum shear stresses in both shafts are equal. Then, find the maximumshear stress. Explain your work concisely and in detail. Clearly and carefully draw your final design.(B)In problem 3.52, consider the following: Do not change the total distance between points A and C. Is it possible tomove the coupling disk (point B) somewhere between A and C so that the maximum shear stresses in shafts ABand BC are equal? Explain your work concisely and in detail. Clearly and carefully draw your final design.(C)Use problem 3.52. Add a force of 500 kN that is perpendicularly applied at point B in the direction from B towardC.Remove the torque.The steel and brass are assumed to have Poisson’s ratios of 0.30. (a)Determine the internalforce in AB.(b)Determine the internal force in BC.(c)Determine the deflection at Point B.(d)Determine thereaction at Point A.(e)Determine the reaction at Point C. Explain your work concisely and in detail

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Aluminum T = 12.5 kip-in. Brass Fig. P3.51 ニ A - 1.5 in. B с 2.0 in. 12 in. 18 in.

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1 The solid cylinders AB and BC are bonded together at B and are attached to fixed supports at A and C. Knowing that the modulus of rigidity is 3.7 x 106 psi for aluminum and 5.6 × 106 psi for brass, determine the maximum shearing stress (a) in cylinder AB, (b) in cylinder BC. 2 Solve Prob. 3.51, assuming that cylinder AB is made of steel, for which G = 11.2 × 106 psi.