369771 Two parallel and opposite forces, each of magnitude \(4000\,N\), are applied tangentially to the upper and lower faces of a cubical metal block \(25\,cm\) on a side. Find the displacement of the upper surface relative to the lower surface . The shear modulus for the metal is \(80\,Gpa\).

369772 Consider two cylindrical rods of identical dimensions, one of rubber and the other of steel. Both the rods are fixed rigidly at one end to the roof. A mass \(M\) is attached to each of the free ends at the centre of the rods.

369773 The upper end of a wire of radius \(4\;mm\) and length \(100\;cm\) is clamped and its other end is twisted through an angle of \(30^{\circ}\). Then angle of shear is

369774 A \(5.0\;\,cm\) cube of substance has its upper face displaced by \(0.65\;\,cm\) by a tangential force of \(0.25\,\,N\) Calculate the modulus of rigidity of the substance.

369771 Two parallel and opposite forces, each of magnitude \(4000\,N\), are applied tangentially to the upper and lower faces of a cubical metal block \(25\,cm\) on a side. Find the displacement of the upper surface relative to the lower surface . The shear modulus for the metal is \(80\,Gpa\).

369772 Consider two cylindrical rods of identical dimensions, one of rubber and the other of steel. Both the rods are fixed rigidly at one end to the roof. A mass \(M\) is attached to each of the free ends at the centre of the rods.

369773 The upper end of a wire of radius \(4\;mm\) and length \(100\;cm\) is clamped and its other end is twisted through an angle of \(30^{\circ}\). Then angle of shear is

369774 A \(5.0\;\,cm\) cube of substance has its upper face displaced by \(0.65\;\,cm\) by a tangential force of \(0.25\,\,N\) Calculate the modulus of rigidity of the substance.

369771 Two parallel and opposite forces, each of magnitude \(4000\,N\), are applied tangentially to the upper and lower faces of a cubical metal block \(25\,cm\) on a side. Find the displacement of the upper surface relative to the lower surface . The shear modulus for the metal is \(80\,Gpa\).

369772 Consider two cylindrical rods of identical dimensions, one of rubber and the other of steel. Both the rods are fixed rigidly at one end to the roof. A mass \(M\) is attached to each of the free ends at the centre of the rods.

369773 The upper end of a wire of radius \(4\;mm\) and length \(100\;cm\) is clamped and its other end is twisted through an angle of \(30^{\circ}\). Then angle of shear is

369774 A \(5.0\;\,cm\) cube of substance has its upper face displaced by \(0.65\;\,cm\) by a tangential force of \(0.25\,\,N\) Calculate the modulus of rigidity of the substance.

369771 Two parallel and opposite forces, each of magnitude \(4000\,N\), are applied tangentially to the upper and lower faces of a cubical metal block \(25\,cm\) on a side. Find the displacement of the upper surface relative to the lower surface . The shear modulus for the metal is \(80\,Gpa\).

369772 Consider two cylindrical rods of identical dimensions, one of rubber and the other of steel. Both the rods are fixed rigidly at one end to the roof. A mass \(M\) is attached to each of the free ends at the centre of the rods.

369773 The upper end of a wire of radius \(4\;mm\) and length \(100\;cm\) is clamped and its other end is twisted through an angle of \(30^{\circ}\). Then angle of shear is

369774 A \(5.0\;\,cm\) cube of substance has its upper face displaced by \(0.65\;\,cm\) by a tangential force of \(0.25\,\,N\) Calculate the modulus of rigidity of the substance.