146637 The value of coefficient of volume expansion of glycerin is $5 \times 10^{-4} \mathrm{~K}^{-1}$. The fractional change in the density of glycerin for a rise of $40^{\circ} \mathrm{C}$ in its temperature is

146638 The coefficients of apparent expansion of a liquid when determined using two different vessels $A$ and $B$ are $\gamma_{1}$ and $\gamma_{2}$ respectively. If the coefficient of linear expansion of the vessel $A$ is $\alpha$, the coefficient of linear expansion of the vessel $B$ is

146516 A metal bar of length $L$ and area of crosssection $A$ is clamped between two rigid supports. For the material of the rod, its Young's modulus is $Y$ and coefficient of linear expansion is $\alpha$. If the temperature of the rod is increased by $\Delta t^{0} \mathrm{C}$, the force exerted by the rod on the supports is

146530 A bimetallic strip consists of brass and iron when it is heated it bends into an arc with brass on the convex and iron on the concave side of the arc. This happens because-

146637 The value of coefficient of volume expansion of glycerin is $5 \times 10^{-4} \mathrm{~K}^{-1}$. The fractional change in the density of glycerin for a rise of $40^{\circ} \mathrm{C}$ in its temperature is

146638 The coefficients of apparent expansion of a liquid when determined using two different vessels $A$ and $B$ are $\gamma_{1}$ and $\gamma_{2}$ respectively. If the coefficient of linear expansion of the vessel $A$ is $\alpha$, the coefficient of linear expansion of the vessel $B$ is

146516 A metal bar of length $L$ and area of crosssection $A$ is clamped between two rigid supports. For the material of the rod, its Young's modulus is $Y$ and coefficient of linear expansion is $\alpha$. If the temperature of the rod is increased by $\Delta t^{0} \mathrm{C}$, the force exerted by the rod on the supports is

146530 A bimetallic strip consists of brass and iron when it is heated it bends into an arc with brass on the convex and iron on the concave side of the arc. This happens because-

146637 The value of coefficient of volume expansion of glycerin is $5 \times 10^{-4} \mathrm{~K}^{-1}$. The fractional change in the density of glycerin for a rise of $40^{\circ} \mathrm{C}$ in its temperature is

146638 The coefficients of apparent expansion of a liquid when determined using two different vessels $A$ and $B$ are $\gamma_{1}$ and $\gamma_{2}$ respectively. If the coefficient of linear expansion of the vessel $A$ is $\alpha$, the coefficient of linear expansion of the vessel $B$ is

146516 A metal bar of length $L$ and area of crosssection $A$ is clamped between two rigid supports. For the material of the rod, its Young's modulus is $Y$ and coefficient of linear expansion is $\alpha$. If the temperature of the rod is increased by $\Delta t^{0} \mathrm{C}$, the force exerted by the rod on the supports is

146530 A bimetallic strip consists of brass and iron when it is heated it bends into an arc with brass on the convex and iron on the concave side of the arc. This happens because-

146637 The value of coefficient of volume expansion of glycerin is $5 \times 10^{-4} \mathrm{~K}^{-1}$. The fractional change in the density of glycerin for a rise of $40^{\circ} \mathrm{C}$ in its temperature is

146638 The coefficients of apparent expansion of a liquid when determined using two different vessels $A$ and $B$ are $\gamma_{1}$ and $\gamma_{2}$ respectively. If the coefficient of linear expansion of the vessel $A$ is $\alpha$, the coefficient of linear expansion of the vessel $B$ is

146516 A metal bar of length $L$ and area of crosssection $A$ is clamped between two rigid supports. For the material of the rod, its Young's modulus is $Y$ and coefficient of linear expansion is $\alpha$. If the temperature of the rod is increased by $\Delta t^{0} \mathrm{C}$, the force exerted by the rod on the supports is

146530 A bimetallic strip consists of brass and iron when it is heated it bends into an arc with brass on the convex and iron on the concave side of the arc. This happens because-