Question Two blocks of rubber with a modulus of rigidity G = 12 MPa are bonded to rigid supports and to a plate AB. C = 100 mm and P = 45 kN. B 1. Determine the smallest allowable dimension a of the blocks if the shearing stress in the rubber is not to exceed 1.4 MPa and the deflection of the plane is to at least 3.3 mm. provide answer in mm with precision to two decimal points. 2. Determine the smallest allowable dimension b of the blocks if the shearing stress in the rubber is not to exceed 3.7 MPa and the deflection of the plate is to be at least 5 mm. provide the answer in mm with precision to two decimal points.

Textbook: Strength of Materials Please provide step by step solution. A formula sheet is provided for your reference.

Question 2. The square plate ABCD is deformed into the shape shown by the dashed lines. If DC has a normal strain Ex = 0.005, DA has a normal strain ey = 0.004 at D, Yxy = 0.01rad determine the shear strain at point E with respect to the x' and y' axes. 600 mm- 600 mm E D

Consider the truss shown in (Figure 1). Suppose that F = 30 kN Figure A 3m 3m < 1 of 1 ▼ Determine the force in the member CD of the truss and state whether it is in tension or compression. Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive value in the case tension. FCD- Value Submit Part B HA Part C Request Answer Determine the force in the member CB of the truss and state whether it is in tension or compression. Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive value in the case of tension. FCB- Value Submit Request Answer HÀ Submit Part D FDA- Value HA Determine the force in the member DA of the truss and state whether it is in tension or compression. Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive...

Learning Goal: The member shown is subjected to a compressive stress in the x direction of o2 = 400 ksi and a compressive stress in the y direction of oy = 700 ksi The dimensions of the member are a = 3.75 in, b = 1.50 in, and t = 0.75 in. Assume that E - 29000 ksi and that Poisson's ratio is v= 0.29.(Figure 1) Figure V o 9 1 of 1 ▼ Part D - Change in dimension of the member The applied stresses cause the member to experience a change in all of its dimensions. What are the new dimensions, d', b', and t', of the member due to the applied stresses? Express your answers in inches to three significant figures separated by commas. ► View Available Hint(s) d', b',t' = Submit == Provide Feedback 175) ΑΣΦ ΠΨΓ 41 vec → 0 in, in, in Next> 10:55 PM

SITUATION. As shown in the figure below, a rigid bar with negligible mass is pinned at O and attached to two vertical rods. Assume that the rods were initially stress-free. Allowable stress in steel is 120 MPa and in bronze is 60 MPa. For this problem, a = 1.8m; b = 1.3m; c = 1.7m. b C P Steel: A=900 mm2 E = 200 GPa L=1.5m Bronze: A 1200 mm E=83 GPa L=2.0m What is the value of P without exceeding the allowable stress of bronze, in kN? 174 145 161 124

Please show complete work on a sheet of paper ,Diagram should be included.

Portions of a x-in. square bar have been bent to form the two machine components shown. Knowing that the allowable stress is 18 ksi, determine the maximum load that can be applied to each component. (a) 1 in. (b) The maximum load that can be applied to component (a) is The maximum load that can be applied to component (b) is lb. lb.

Pls write legibly. Thanks

a=2 b=5 80*a=160 90*b=450 100*b=500

4.c

Part 2 * Your answer is incorrect. The z-component of momemt M will cause compression at A and B, and tension at C and D. The y-component of moment M will cause compression at A and D, and tension at B and C. The maximum tensile bending stress will occur at point C. Calculate the magnitude of the largest bending moment that can be applied so that the stress at corner C does not exceed 205 MPa. Answer: M- eTextbook and Media Save for Later Part 3 8.31E1 Answer: M-i The z-component of moment M will cause compression at A and B, and tension at C and D. The y-component of moment M will cause compression at A and D, and tension at B and C. The maximum compressive bending stress will occur at point A. Calculate the magnitude of the largest bending moment that can be applied so that the stress at corner A does not exceed 205 MPa. eTextbook and Media Save for Later Part 4 kN-m * Your answer is incorrect. kN-m Submit Answer Determine the maximum bending moment that can be applied to this cross...

#2 will upvote anyone who will answer correctly. Correct decimal places please. Thanks