When does an elastic metal rod change its length?

Identify the case when an elastic metal rod does not undergo elongation

The fundamental radio antenna is a metal rod which has a length equal to

on heating a cylindrical metallic rod, its length increases by 2% . Then area of cross section of rod will

When a long rod of iron magnetised by means of an electric current, then its length increase. This phenomenon is

A rod of length 20 cm made of metal A expands by 0.075 when its temperature is raised from 0^(@) C to 100^(@)C . Another rod of a different metal B having the same length expands by 0.045 cm for the same change in temperature. A third rod of the same length is composed of two parts, one of metal A and other of metal B. This rod expands by 0.065 cm for the same change in temperature. The portion made of metal A has the length :

Look at the figure and answer the question. When does the transfer of heat in the metal rod stop?

A compressive force, F is applied at the two ends of a long thin steel rod. It is heated, simultaneously, such that its temeprature increass by DeltaT . The net change in its length is zero. Let l be the length of the rod, A its area of cross-section, Y its Young's modulus, and alpha its coefficient of linear expansion. Then, F is equal to

A compressive force, F is applied at the two ends of a long thin steel rod. It is heated, simultaneously, such that its temeprature increass by DeltaT . The net change in its length is zero. Let l be the length of the rod, A its area of cross-section, Y its Young's modulus, and alpha its coefficient of linear expansion. Then, F is equal to

The length of an elastic string is Xm when the tension is 8 N, and Y m when the tension is 10 N. The length in metres when the tension is 18 N is

A rod PQ of mass, area of cross section A, length l and young's modulus of elasticity Y is lying on a smooth table as shown in figure. A force Fis applied at P. Find (a) tension at a distance x from end P, (b) longitudinal stress at this point, (c) total change in length and (d) total strain the rod.