For the different materials it is given that `Y_(1) gt Y_(2)` and `B_(1) lt B_(2)`. Here, Y is Young's modulus of elasticity and B, the Bulk modulus of elasticity. Then we can conclude that

If the Young's modulus of the material is 3 times its modulus of rigidity then its bulk modulus of elasticity will be

If for a material , Y and B are young's modulus and Bulk 's modulus , them .

If s is stress and Y is Young's modulus of material, the energy stored per unit volum is

The relation between Y (Young's modulus), K (bulk modulus) and eta (shear modulus) is

The relationship between Young's modulus Y, Bulk modulus K and modulus of rigidity eta is

Assertion: From the relation Y = (Fl)/(ADeltal) , we can say that, if length of a wire is doubled, its young's modulus of elasticity will also becomes two times. Reason : Modulus of elasticity is a material property.

In case of bending of a beam, depression depends on Young modulus of elasticity Y as

If in the above question the Young's modulus of the material is Y, the value of extension x is:

If 'S' is stress and 'Y' is young's modulus of material of a wire, the energy stored in the wire per unit volume is