A brass scale is graduated at `10^@C`. What is the true length of a zinc rod which measures 60.00 cm on this scale at `30^@C`?
Coefficient of linear expansion of brass`=18xx10^-6K^-1`.

A metal scale is graduated at 0^@C . What would be the true length of an object which when measured with this scale at 25^@C , reads 50 cm? alpha for metal = 18 xx 10^(-6)//^@C .

A barometer with a brass scale reads 75.34 cm at 25^(@)C . The scale was graduated at 20^(@)C. What will be the reading of the barometer at 0^(@)C ? Coefficient of linear expansion alpha for brass =18 times 10^(-6@)C^(-1) and coefficient of linear expansion gamma for mercury =18 times 10^(-5@)C^(-1).

A brass rod of length 50 cm and diameter 3.0 cm is joined to a steel rod of the same length and diameter. What is the change in length of the combined rod at 250^(@)C , if the original length are at 40.0^(@)C ? (Coefficient of linear expansion of brass =2.0 xx 10^(-5)//^(@)C, steel = 1.2 xx 10^(-5)//^(@)C

A brass rod of length 50 cm and diameter 3.0 cm is joined to a steel rod of the same length and diameter. What is the change in length of the combined rod at 250^(@)C , if the original length are at 40.0^(@)C ? (Coefficient of linear expansion of brass =2.0 xx 10^(-5)//^(@)C, steel = 1.2 xx 10^(-5)//^(@)C

A brass rod has a length of 150 cm at 40^(@)C . What will be its length at 100^(@)C ? The coefficient of linear expansion of brass is 18 times 10^(-6@)C^(-1) .

A barometer with a brass scale reads 755 mm on a day when the temperatures is 25^@C . If the scale is correctly graduated at 0^@C , find the true pressure at 0^@C (interms of height of Hg) given that the coefficient of linear expansion of brass is 18xx10^(-6)//K . Coefficient of cubical expansion of mercury =182xx10^(-6)//K .

A barometer with a brass scale reads 755 mm on a day when the temperatures is 25^@C . If the scale is correctly graduated at 0^@C , find the true pressure at 0^@C (interms of height of Hg) given that the coefficient of linear expansion of brass is 18xx10^(-6)//K . Coefficient of cubical expansion of mercury =182xx10^(-6)//K .