The loss of weight of a solid when immersed in a liquid at `0^(0)C` is `DeltaW_(0)`. If `alpha` and `beta` are the volume coefficients of expansion of the solid and the liquid respectively, then the loss of weight at `t^(@)C` is approxumately

The loss of weight of a solid when immersed in a liquid at 0^(@)C" is "W_(0) . If alphaandbeta are the volume coefficients of expansion of the solid and the liquid respectively, then the loss of weight at t^(@)C is approximately

The loss of weight of a solid when immersed in a liquid at 0^(@)C is W_(0) and at t^(@)C is 'W' . If cubical coefficient of expansion of the solid and the liquid are gamma_(s) and gamma_(1) then W =

The loss of weight of a solid when immersed in a liquid at 0^(@)C is W_(0) and at t^(@)C is 'W' . If cubical coefficient of expansion of the solid and the liquid are gamma_(s) and gamma_(1) then W =

The loss of weight of a solid when immersed in a liquid at 0^(@)C is W_(0) and at t^(@)C is 'W' . If cubical coefficient of expansion of the solid and the liquid are gamma_(s) and gamma_(1) then W =

If alpha, beta , and gamma are coefficients of linear, area l and volume expansion of a solid then

If alpha_(c) and alpha_(f) denote the numerical values of coefficient of linear expansion of a solid, expressed per .^(0)C and per .^(0)F respectively, then

Apparent weights of a body immersed in a liquid at the temperature t_(1) is W_(1) and temperature t_(2) is W_(2) . Coefficients of volume expansion of the liquid and the solid are gamma and gamma_(s) respectively. The value of W_(2)-W_(1) will be