A cubical block is floating inside a bath. The temperature of system is increased by small temperature `delta(T)`. It was found that the depth of submerged portion of cube does not change. Find the relation between coefficient of linear expansion `(alpha)` of the cube and volume expansion of liquid `(gamma)`.

The variation of length of two metal rods A and B with change in temperature is shown in Fig. the coefficient of linear expansion alpha_A for the metal A and the temperature T will be

The moment of inertia of a rod about its perpendicular bisector is I . When the temperature of the rod is increased by Delta T , the increase in the moment of inertia of the rod about the same axis is (Here , alpha is the coefficient of linear expansion of the rod )

A glass vessel of volume v_(0) is completely filled with a liquid and its temperature is raised by DeltaT . What volume of the liquid will overflow? Coefficient of linear expansion of glass =alpha-(g) and coefficient of volume expansion of the liquid =gamma_(c)

A rod of length l and coefficient of linear expansion alpha . Find increase in length when temperature changes from T to T+ DeltaT

A rod of length l and coefficient of linear expansion alpha . Find increase in length when temperature changes from T to T+ DeltaT

The moment of inertia of a rod about its perpendicular bisector is l, when temperature of rod is increased by Delta T, the increase in the moment of inertia of the rod about same axis ( gamma = temperature coefficient of volume expansion)

It was found that resistance of a cylindrical specimen of a wire does not change with small change in temperature. If its temperature coefficient of resistivity is alpha_(R) then find its thermal expansion coefficient (alpha) .

A thread of liquid is in a uniform capillary tube of length L. As measured by a ruler. The temperature of the tube and thread of liquid is raised by DeltaT . If gamma be the coefficient of volume expansion of the liquid and alpha be the coefficient of linear expansion of the material of the tube, then the increase DeltaL in the length of the thread, again measured by the ruler will be