Find the dimensional method the value of Y in SI united when `Y = 20 xx 10^(11) "dyne" cm^(-2)`.

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) ]

An iron bar whose cross sectional area is 4cm^(2) is heated from 0^(@)C and 10^(@)C . The force required to prevent the expansion of the rod is [ Y of Iron = 2 xx 10^(12) "dyne" // cm^(2) alpha of Iron = 12 xx 10^(-6 //@) C ]

The equation of a stationary wave in a metal rod is given by y=0.92 sin.(pix)/(3)sin1000t , where x is in cm and t is in second. The maximum tensile stress at a point x = 1 cm is (npi)/(3)xx10^(8)" dyne cm"^(-2) . What is the value of n? [Young's modulus of the material of rod is =8xx10^(11)" dyne cm"^(-2) ]

Find the value of y when (5y-7)/(3y)=2

Young 's modulus of steel is 2.0 xx 10^(11)N m//(2) . Express it is "dyne"/cm^(2) .

Two exactly similar wires of steel and copper are stretched by equal forces. If the total elogation is 1cm. Find by how much is each wire elongated ? Given Y for steel = 20 xx 10^(11) dyn e//cm^2 and Y for copper = 12xx10^(11) dyn e//cm^2

The equation of a longitudinal stationary wave in a metal rod is given by, y = 0.002 sin "(pix)/(3) sin 1000pit , where x & y are in cm and t is in seconds. If maximum change in pressure (the maximum tensile stress) at the point x = 2 cm is (1)/(n) xx 10^(-3) "dyne"//"cm"^(2) , Find n . Given young's modulus of the material is (3)/(8pi) "dynes"//"cm"^(2) .

The Young's modulus of a rope of 10 m length and having diameter of 2 cm is 20xx10^(11) dyne cm^(-2) . If the elongation produced in the rope is 1 cm, the force applied on the rope is

A body of mass 1 kg is fastened to one end of a steel wire of cross- section area 3 xx 10^(-6)m^(2) and is rotated in horizantal circle of radius 20 cm with a constant speed 2 m//s . Find the elongation of the wire (Y= 2 xx 10^(11) N//m^(2))