A metal rod having coefficient of linear expansion `(alpha)` and Young's modulus (Y) is heated to raise the temperature by `Delta theta`. The stress exerted by the rod

A metal rof having coefficient of linear expansion alpha and Young's modulus Y is heated to raise its temperature by Delta theta . The stress exerted by the rod is

A metal rod is fixed rigidly at two ends so as to prevent its thermal expansion. If L, alpha and Y respectively denote the length of the rod, coefficient of linear thermal expansion and Young's modulus of its material, then for an increase in temperature of the rod by DeltaT , the longitudinal stress developed in the rod is

A metal rod is fixed rigidly at two ends so as to prevent its thermal expansion. If L, alpha and Y respectively denote the length of the rod, coefficient of linear thermal expansion and Young's modulus of its material, then for an increase in temperature of the rod by DeltaT , the longitudinal stress developed in the rod is

A metal rod if fixed rigidly at two ends so as to prevent its thermal expension. If L, alpha , Y respectively denote the length of the rod , coefficient of linear thermal expension and Young's modulus of its material, then for an increase in temperature of the rod by Delta T, the longitudinal stress developed in the rod is

A metal bar of length L and area of cross-section A is rigidly champed between two walls. The Young's modulus of its material is Y and the coefficient of linear expansion is alpha . The bar is heated so that its temperature is increased by theta^(@)C . Find the force exerted at the ends of the bar.

A metal rod if fixed rigidly at two ends so as to prevent its hermalexpension. If L, alpha Y respectively denote the length of the rod , coefficeent of linear thermal expension and Young's modulus of its material, then for an increase in temperature of the rod by Delts T, the longitudinal stress developed in the rod is

A metallic rod of length 'L' and cross-section 'A' has Young's modulus 'Y' and coefficent of linear expansion 'alpha' . If the rod is heated to a temperature. 'T' the energy stored per unit volume is: