1: The cantilevered beam is subjected to the load at its end shown in figure below. Determine: Principal stresses and the angle of plane in the beam at XXXXXXXXXXpoint A & B by analytical method. Principal stresses and the angle of plane in the beam at point A & B by graphical method.(Construct Mohr’s Circle) 2. The shaft is supported at A by a journal bearing that exerts only vertical reaction on the Shaft and at B by a thrust bearing that exerts both horizontal and vertical reactions on the shaft, draw the bending moment diagram for the shaft and then from this diagram sketch the deflection or elastic curve for the shaft’s centre line. Determine: The deflection at x1 = x2 = 100mm and assume E= 200 GPa and XXXXXXXXXXdiameter of the shaft is 20 mm, as shown in the figure below. 3. The steel bar AB has rectangular cross section. If it is pin connected at its ends, Determine: The maximum allowable intensity ‘w’ of the distributed load that can be XXXXXXXXXXapplied to BC without causing the bar AB to buckle. Use factor of XXXXXXXXXXsafety with respect to buckling F.S.= 1.5, Est =200 GPa, XXXXXXXXXXsy= 360 MPa.
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