A uniform rod of length 2L, area of cross - section A and Young's modulus Y is lying at rest under the action of three forces as shown.

Select the correct alternatives.

A force F doubles the length of wire of cross-section a The Young modulus of wire is

A uniform cylindrical rod of length L, cross-section area A and Young's modulus Y is acted upon by the force as shown in Fig. 7(CF).3. The elongation of the rod is

A body is in equilibrium under the action of three coplanar forces P,Q and R as shown in figure. Select the correct statement.

A metal wire of length L, area of cross-section A and young's modulus Y is stretched by a variable force F such that F is always slightly greater than the elastic forces of resistance in the wire. When the elongation of the wire is l

A uniform rod of mass M and length L, area of cross section A is placed on a smooth horizontal surface. Forces acting on the rod are shown in the digram Ratio of elongation in section PQ of rod and section QR of rod is

A block of mass M is suspended from a wire of length L, area of cross-section A and Young's modulus Y. The elastic potential energy stored in the wire is

A uniform rod of mass M and length L, area of cross section A is placed on a smooth horizontal surface. Forces acting on the rod are shown in the digram Total elastic potential energy stored in the rod is :

A uniform rod of length l , mass m , cross-sectional area A and Young's modulus Y is rotated in horizontal plane about a fixed vertical axis passing through one end, with a constant angular velocity omega . Find the total extension in the rod due to the tension produced in the rod.

A cord of mass m length L, area of cross section A and Young's modulus y is hanging from a ceiling with the help of a rigid support. The elogation developed in the wire due to its own weight is

A uniform copper bar of density rho , length L , cross - sectional area S and young's modulus Y is moving horizontally on a frictionless surface with constant acceleration a_(0) . Find (a) the stress at the center of the wire , (b) total elongation of the wire .