A uniform metal rod fixed at its ends of `2 mm^(2)` cross-section is cooled from `40^(@)C` to `20^(@)C`. The coefficient of the linear expansion of the rod is `12xx10^(-6) ` per degree celsius and its young's modulus of elasticity is `10^11 N//m^(2).` The energy stored per unit volume of the rod is

A uniform metal rod of 2mm^(2) area of cross section is heated from 0^(@)C to 20^(@)C . The coefficient of linear expansion of the rod is 12xx10^(-6)//""^(@)C . Its Young's modulus of elasticity is 10^(11)N//m^(2) , then the energy stored per unit volume of rod is,

A uniform metal rod is used as a bar pendulum. If the room temperature rises by 10^(@)C , and the coefficient of linear expansion of the metal of the rod is 2 xx 10^(-6) per^(@)C , the period of the pendulum will have percentage increase of

A uniform metal rod is used as a bar pendulum. If the room temperature rises by 10^(@)C , and the coefficient of linear expansion of the metal of the rod is 2 xx 10^(-6) per^(@)C , the period of the pendulum will have percentage increase of

A uniform metal rod is used as a bar pendulum. If the room temperature rises by 10^(@)C , and the coefficient of linear expansion of the metal of the rod is 2 xx 10^(-6) per^(@)C , the period of the pendulum will have percentage increase of

A steel wire of length 20 cm and uniform cross section 1 mm^(2) is tied rigidly at both the ends. The temperature of the wire is altered from 40^(@) C to 20^(@)C Coefficient of linear expansion for steel alpha = 1.1 xx 10^(-5) l^(@)C and Y for steel is 2.0 xx 10^(11) N//m^(2) . The change in tension of the wire is

Find the pressure requried to prevent the expansion of a copper block if it is heated from 40^(@)C to 50^(@)C . Coefficient of linear expansion of copper is 15xx 10^(-6)//^(@)C and bulk modulus = 12 xx 10^(10) N //m^(2)

A uniform copper rod of length 50 cm and diameter 3.0 mm is kept on a frictionless horizontal surface at 20^(@)C . The coefficient of linear expansion of copper is 2.0 xx 10^(-5) K^(-1) and Young's modulus is 1.2 xx 10^(11) N//m^(2) . The copper rod is heated to 100^(@)C , then the tension developed in the copper rod is

Steel wire of length 'L' at 40^@C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40^@C to 30^@C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10^-5//^@C , Young's modulus of steel is 10^11 N//m^2 and radius of the wire is 1mm. Assume that L gt gt diameter of the wire. Then the value of 'm' in kg is nearly

Steel wire of length 'L' at 40^@C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40^@C to 30^@C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10^-5//^@C , Young's modulus of steel is 10^11 N//m^2 and radius of the wire is 1mm. Assume that L gt gt diameter of the wire. Then the value of 'm' in kg is nearly

Steel wire of length 'L' at 40^@C is suspended from the ceiling and then a mass 'm' is hung from its free end. The wire is cooled down from 40^@C to 30^@C to regain its original length 'L'. The coefficient of linear thermal expansion of the steel is 10^-5//^@C , Young's modulus of steel is 10^11 N//m^2 and radius of the wire is 1mm. Assume that L gt gt diameter of the wire. Then the value of 'm' in kg is nearly