The expansion when solid expands in two dimension

When a solid expands in two dimensions, it is called cubical expansion.

Consider the following statements. (A)The coefficient of linear expansion has dimension k^(-1) . (B) The coefficient of volume expansion has dimension k^(-1) .

The dimension of torque is equal to the dimension of work.Yet, the two quantities are different . Explain.

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 =

Assertion : A solid is floating in a liquid . If temperature is increased and expansion of solid is ignored, then fraction of volume immersed will increase. Reason : By increasing the temperature density of liquid will decrease.

Find the sum of the last 30 coefficients in the expansion of (1+x)^(59), when expanded in ascending powers of xdot

Find the sum of the last 30 coefficients in the expansion of (1+x)^(59), when expanded in ascending powers of x .

Thermal expansion is least in the case of gases and most in the case of solids.

The magnitude of ethalphy changes for reversible adiabatic expansion of a gas from volume V_(1) to V_(2) (in L) is DeltaH_(1) and for irreversible adiabatic expansion for the same expansion is DeltaH_(2) . Then when DeltaU_(1) and DeltaU_(2) are the changes in magnitudes for the internal energy of gas in the two expansions.