A uniform rod of cross-section `4 mm^(2)` is heated from ` 0^(@)C " to "10^(@)C.` The coefficient of linear expansion of the rod, `prop=12xx10^(-6)//^(@)C` and Young's modulus `=10^(11)N//m^(2).` The strain produced in the rod is

When water is heated from 0^@C to 10^@C its density.

When water is heated from 0^@C to 10^@C , it's volume

A clock which keeps correct time at 20^(@)C is subjected to 40^(@)C. If coefficient of linear expansion of the pendulum is 12xx10^(-6)//"^(@)C. How much will it gain or loss in time ?

By how much will a steel bar one metre long expand when heated from 25^@C to 55^@C ? The coefficient of volume expansion of steel is 3 xx 10^-5//^@C .

A steel wire 2 mm in diameter is just stretched between two fixed points at a temperature of 20^(@)C. If the temperature falls to 10^(@)C, then the tension in the wire is (The coefficient of linear expansion of steel = 11xx10^(-6)//^(@)C and Y for steel 2.1 xx10^(11)N//m^(2))

A metal rod of diameter 1 cm measures 50 cm in length at 65 °C. If the coefficient of linear expansion of the rod is 16 x 10-6/ °C, the length of the rod at 0 °C will be

A metal rod having a coefficient of linear expansion of 2 xx 10^-5 /^@C has a length of 100 cm at 20^@C . The temperature at which it is shortened by 1 mm is

A metal rod of length 'L' and cross-sectional area 'A' is heated through 'T'^(@)C What is the force required to prevent the expansion of the rod lengthwise ?

The diameter of a brass rod is 4 mm and Young's modulus of brass is 9 xx 10^(10) N//m^(2) . The force required to stretch by 0.1 % of its length is

The length of a rod is 0.5 xx 10^(2) m , the order of magnitude of the length of the rod is