A rubber of volume 2000 cc is alternatel...

A rubber of volume 2000 cc is alternately subjected to tension and released. The figure shown the stress-strain curve of rubber. Each curve is a quadrant of an ellipse. The amount of energy lost as heat per cycle per unit volume will be

Similar Questions

Explore conceptually related problems

The stress strain curves for brass, steel and rubber are shown in the figure. The lines A, B and C are for

A large number of water drops, each of radius I, combine to have a drop of radius R. If the surface tension is T and mechanical equivalent of heat is J, the rise in heat energy per unit volume will be:

When a force is applied at one end of an elastic wire, it produce a strain E in the wire. If Y is the Young's modulus of the material of the wire, the amount of energy stored per unit volume of the wire is given by

An elastic material of Young's modulus Y is subjected to a stress S. The elastic energy stored per unit volume of the material is

If 20kJ work is done by the water fall per unit volume of water and 30kJ heat was lost per unit volume, the energy change per unit volume of water is:

When an elastic material (Y = E) is subjected to a stress S, find the elastic energy per unit volume.

A rubber of volume 2000 cc is alternately subjected to tension and released. The figure shown the stress-strain curve of rubber. Each curve is a quadrant of an ellipse. The amount of energy lost as heat per cycle per unit volume will be

Similar Questions

Recommended Questions