An Indian rubber cube of side 7 cm has one side fixed, while a tengential force equal to the weight of 200 kilogram is applied to the opposite face. Find the shearing strain produced and distance through which th strained side moves. Modulus of rigidity for rubber is `2xx10^(7)` dyne `cm^(-2)`

A rubber cube of side 8 cm has one side fixed, while a tangential force equal to the weight fo 300 kilogram is applied to the opposite face. Find the shearing strain produced and distance through which the strain side moves. Modulus of rigidity for rubber is 2xx10^7 dyn e cm^(-2)

Consider an Indian rubber cube having modulus of rigidity of 2xx10^(7) dyne cm^(-2) and of side 8 cm. If one side of the rubber is fixed, while a tangential force equal to the weight of 300 kg is applied to the opposite face, then find out the shearing strain produced and distance through which the strain side moves .

A rubber cube of side 5 cm has one side fixed while a tangential force equal to 1800 N is applied to opposite face. Find the shearing strain and the lateral displacement of the strained face. Modulus of rigidity for rubber is 2.4 xx 10^(6) N//m^(2) .

A rubber cube of side 5 cm has one side fixed while a tangential force equal to 1800 N is applied to opposite face, find the shearing strain and the lateral displaceement of the strained face, modulus of rigidity for rubber is 2.4xx10^(6)N//m^(2)

A rubber cube of side 10 cm has one side fixed to a horizontal surface. A tangential force of 2000 N is applied on the opposite face. The distance through which the strained side moves will be (Rigidity modulus of the material is 200xx10^(4)N//m^(2), g=10m//s^(2) )

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) .

A metallic cube of side 10 cm is subjected to a shearing force of 300 kgf. The top force is displaced through 0.25 cm with respect ot the bottom ? Calculate the shearing strain produced .

A cube of aluminium of side 6 cm is subjected to a tangential force such that the top face is shears through 0.012cm relative to the bottom face. The tangential force is k xx 10^(10) dyne. What is the value of k? [Shear modulus of the material is eta= 2 xx 10^(11) dyne cm^(-2) ]

A rubber block 1cmxx3cm10cm is clamped at one end with its 10cm side vertical. A horizontal force of 30 N is applied to the free surface. What is the horizontal displacement of the top face ? Modulus of rigidity of rubber 1.4xx10^(5)Nm^(-2)

A cube of aluminimum of each side 4 cn is subjected to a tangential (shearing) force. The top face of the cube is sheared through 0.012 cm with respect to the bottom face. Find (i)shearing strain (ii) shearing stress and shearing force. Given eta=2.08xx10^(11) dyne cm^(2)