Two parallel and opposite forces each 5000 N are applied tangentially to the upper and lower faces of a cubical metal block of side 25 cm. the angle of shear is (The shear modulus of the metal is 80 Gpa)

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 angle of shear and the displacement of the upper surface relative to the lower surface. The shear modulus for the metal is 80 GPa .

Two parallel and opposite forces, each of magnitude 4000 N , are applied tangentially to the upper and lower faces of a cubical metal blcok 25 cm on a side. Find the angle of shear and the displacement of the upper surface relative to the lower surface. The shear mdulus for the metal is 80 GPa .

Two parallel forces of 4000 N are applied tangentially in opposite direction to the opposite faces of a metallic cube of side length 0.25 m. The shear modulus of the material is 80xx10^(9) Pa. Then the displacement of the upper surface relative to the lower surface is

Two equal and opposite forces are applied tangentially to two mutually opposite faces of an aluminium cube of side 3 cm to produce a shear of 0.01^@ . IF the modulus of rigidity for aluminium is 7 times 10^10 N.m^-2 , then calculate the force applied.

Tangential forces of magnitude 4 xx 10^(8) N are applied to the opposite faces of a metal cube of side 0.5 m. What is the shear stress on the cube ?

As shown in the figure forces of 10^(5) N each are applied in opposite direction on the upper and lower faces of a cube of side 10 cm shifting the upper face parallel to itselft by 0.5 cm if the side of another cube of the same material is 20cm, then under similar conditions as above the displacement will be

Forces of 100 N each are applied in opposite direction on the upper and lower faces of a cube of side 20 cm. The upper face is shifted parallel to itself by 0.25 cm. If the side of the cube were 10 cm, then the displacement would be

Forces of 100 N each are applied in opposite direction on the upper and lower faces of a cube of side 20 cm. The upper face is shifted parallel to itself by 0.25 cm. If the side of the cube were 10 cm, then the displacement would be

A force Fis tangentially applied on the upper face of a cube of side b and whose lower face is fixed. If modulus of rigidity is n then upper surface of cube is shifted to