The internal loadings at a cross section through the 7.6-in.- diameter drive shaft of a turbine in (Figure 1) consist of an axial force of 2500 lb, a bending moment of 800 lb-ft, and a torsional moment of 1500 lb. ft. Figure < 1 of 1 > Part A Determine the maximum principal stress at point A. Express your answer in pounds per square inch to three significant figures. 01 = Submit Part B 02 = Submit VAΣo vec Part C Request Answer Determine the minimum principal stress at point A. Express your answer in pounds per square inch to three significant figures. VAΣ vec 6 Request Answer Tmax in-plane ? = VAΣo↓ vec psi ? Calculate the maximum in-plane shear stress at point A. Express your answer in pounds per square inch to three significant figures. psi ? psi Figure 800 lb-ft B 2500 lb 1 of 1 1500 lb-ft

a,b,c please and thank you!

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The internal loadings at a cross section through the 7.6-in.- diameter drive shaft of a turbine in (Figure 1) consist of an axial force of 2500 lb, a bending moment of 800 lb-ft, and a torsional moment of 1500 lb. ft. Figure < 1 of 1 > Part A Determine the maximum principal stress at point A. Express your answer in pounds per square inch to three significant figures. 01 = Submit Part B 02 = Submit VAΣo vec Part C Request Answer Determine the minimum principal stress at point A. Express your answer in pounds per square inch to three significant figures. VAΣ vec 6 Request Answer Tmax in-plane ? = VAΣo↓ vec psi ? Calculate the maximum in-plane shear stress at point A. Express your answer in pounds per square inch to three significant figures. psi ? psi

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Figure 800 lb-ft B 2500 lb 1 of 1 1500 lb-ft