If I is the moment of inertia of a solid body having `alpha`-coefficient of linear expansion then the change in I corresponding to a small change in temperature `DeltaT` is

Does the moment of inertia of a rigid body change with the axis of rotation?

If I is the moment of inertial of a disc about an axis passing through its centre then find the change in moment of inertial due to small change in its moment of inertia due to small change in its temperature Delta t . alpha is the coefficient of linear expansion of disc.

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

find out the increase in moment of inertia I of a uniform rod (coefficient of linear expansion alpha ) about its perpendiuclar bisector when itsw temperature is slightly increased by Delta T.

A bob of simple pendulum is suspended by a metallic wire. If alpha is the coefficient of linear expansion and d theta is t he change in temperature then prove that percentage change in time period is 50 alpha d theta .

A metal rod having coefficient of linear expansion (alpha) and Young's modulus (Y) is heated to raise the temperature by Delta theta . The stress exerted by the rod

Assertion : The coefficient of volume expansion has dimension K^(-1) . Reason : The coefficient of volume expansion is defined as the change in volume per unit volume per unit change in temperature.

When the temperature of a rod increases from 1 to t. Delta t,the moment of inertia increases from 1 to 1+Delta.The coefficient of linear expansion of the rod is alpha.The ratio Delta I/I is :