The shearing strain produced in a block of metal subjected to a shearing stress of `10^(8)N//m^(2)` is
( Modulus of rigidity `eta=8 xx 10^(10)N//m^(2)`)

The force required to punch a hole of diameter 2 mm, will be (If a shearing stress 4xx10^(8)N//m^(2) .)

The metal cube of side 10 cm is subjected to a shearing stress of 10^(4) N m^(-2) . The modulus of rigidity if the top of the cube is displaced by 0.05 cm with respect to its bottom is

What will be the change in interatomic distance ( in Å ) of steel on applying a stress of 10^(9) N//m^(2) . The Young's modulus of steel is 2 xx 10^(11) N//m^(2) and the interatomic distance in steel is 2.8Å .

A metal cube of side 10 cm is subjected to a shearing stress of 10^(6)N//m^(2) . Calculate the modulus of rigidity if the of the cube is displaced by 0.05 cm with respect to its bottom.

The metal cube of side 10 cm is subjected to a shearing stress of 10^(4)Nm^-2 . The modulus of rigidiy if the top of the cube is displaced by 0.05 cm with respect to its bottom is

Distinguish between forced vibrations and resonance. Draw neat, labelled diagrams for the modes of vibration of a streched string in second harmonic and third harmonic. The area of the upper face of a rectangular block is 0.5mxx0.5m and the lower face is fixed. The height of the block is 1cm . A shearing force applied at the top face produces a displacement of 0.015 mm . Find the strain and shearing force. (Modulus of rigidity : eta=4.5xx10^(10)N//m^(2) )

A metal wire is observed to stretch by one part in a million when subjected to a stress of 8xx10^(4)N//m^(2) . The Young's modulus of the metal is

A uniform cylindrical wire is subjected to a longitudinal tensile stress of 5 xx 10^(7) N//m^(2) . Young's modulus of the material of the wire is 2 xx 10^(11) N//m^(2) . The volume change in the wire is 0.02% . The factional change in the radius is

A metallic cube of side 8cm is under a tangential force. The top face of the cube is sheared through 0.15 mm with respect to the bottom face. Find (a) shearing stain (b) shearing stress and (c ) shearing force. Given , modulus of rigidity of the metal =2.08 xx 10^(11) dyn e.//cm^(2) .

The strain energy stored in a body of volume V due to shear strain is phi (shear modulus is n)