The state of plane stress on an element is shown below. Let σx=30.0 MPaσx=30.0 MPa, σy=−100.0...

A state of stress is given by: σx = −200 MPa σy = 150 MPa σxy=...

A state of stress is given by: σx = −200 MPa σy = 150 MPa σxy= −70 MPa Determine the principal stresses and the maximum shear stress, as well as their orientation, using the Mohr circle construction. b. Explain why the engineering stress in a tension test increases from yield to ultimate and then decreases from ultimate to fracture.

A machine element is subjected to the following bi-axial state of stress: σx=80 MPa σy=20 MPa;...

A machine element is subjected to the following bi-axial state of stress: σx=80 MPa σy=20 MPa; τxy=40 MPa. If the shear strength of the material is 100 MPa, and the yield strength is 300 MPa, determine the factor of safety using (a)Tresca’s Maximum-Shear-Stress Theory and (b) von Mises’ Distortion Energy Theory.

The state of stress at a point in a member is shown on the element. Suppose...

The state of stress at a point in a member is shown on the element. Suppose that σxσx = -60 MPaMPa , σyσy = -100 MPaMPa , τxyτxy = -27 MPaMPa . 1. Determine the normal stress component acting on the plane AB. σx′ 2. Determine the shear stress component acting on the plane AB. τx′y′

A differential stress element has the following set of applied stresses: σx=790 psi, σy=240 psi, τxy=530...

A differential stress element has the following set of applied stresses: σx=790 psi, σy=240 psi, τxy=530 psi Need to draw and find the following: 1) draw the stress element showing the applied stresses 2) find the principal stresses and maximum shear stresses analytically and show it on the stress element.