The cross-section of beam shown in Figure Q2 (centroid in red) is subjected to pure bending. Taking elasticity module E = 210 GPa , yield stress ay = 300 MPa, ultimate stress o, = 500 MPa and second moment of area I,, = 3,985,000 mm a) Determine the bending moment about the z-axis that causes plasticity in half of the flange %3D b) Calculate the shape factor of the cross-section. c) Show in detail the progression of the stress distribution: o at the initiation of yielding o when plasticity has crept into half of the flange at full plastic section d) State and explain Miner's Rule in the context of life of a mechanical component and show a short application example. 120 10 37.5 120mm Kindly solve all parts of the questions, it's urgent i need a solution in 10 mins. will upvote.

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The cross-section of beam shown in Figure Q2 (centroid in red) is subjected to pure bending. Taking elasticity module E = 210 GPa , yield stress oy = 300 MPa, ultimate stress o, = 500 MPa and second moment of area I, = 3,985,000 mm* a) Determine the bending moment about the z-axis that causes plasticity in half of the flange b) Calculate the shape factor of the cross-section. c) Show in detail the progression of the stress distribution: o at the initiation of yielding o when plasticity has crept into half of the flange at full plastic section d) State and explain Miner's Rule in the context of life of a mechanical component and show a short application example. 120 10 + 37.5 120mm Kindly solve all parts of the questions, it's urgent. i need a solution in 10 mins. will upvote.