`1V cdot m^(-1) = ?`

What will be the amount of work done to rotate an electric dipole of moment 2.0 xx 10^(-20)C cdot m through an angle of 180^(@) in an electric field of intensity 1.2 xx 10^(4) V cdot m^(-1) ?

Find out the maximum charge on an unearthed hollow metal sphere of radius 3.0m for which it would not discharge into air. What would be the potential of the sphere in that condition? Assume that, electric discharge into air initiates at a field intensity of 3xx10^(6)V cdot m^(-1) .

A small sphere, having a charge of 10^(-6)C and a mass of 2g, moved from a point A to a point B. Potential at A is 36000 V and that at B is zero. If the velocity of the sphere at B be 10 m//s , what was its velocity at A (in m cdot s^(-1) ) ?

The electric potential V at any point (x, y, z) all in meters in space is given by V = 4x^(2)V . The electric field at the point (1,0,2) in V cdot m^(-1) is

A ball of mass 0.5 kg is moving with a velocity v of 2 m cdot s^(-1) . It is subjected to a force of xN in 2 s. Because of this force, the ball moves with a velocity of 3 m cdot s^(-1) . The value of x is

A body of mass 2 kg is pulled with a velocity 2 m cdot s^(-1) on horizontal surface. What will be the heat produced in 5s, if the coefficient of friction between the body and the surface is 0.2? Given, J = 4.2 J cdot cal^(-1) , g = 9.8 m cdot s^(-2) .

A rocket consumes fuel at the rate of 100 kg cdot s^(-1) . Gas ejects out of it with a velocity of 5xx 10^(4) m cdot s^(-1) . If gravitational pull is neglected, impulsive force experienced by the rocket is

Sea water is splattered horizontally from a jet at a speed of 10 m cdot s^(-1) . The water comes to rest after falling in a container, 20 m below the jet level. What will be the increase in the temperature of the water? Specific heat of sea water = 0.94 cal cdot g^(-1) cdot^(@)C^(-1), J = 4.2 xx 10^(7) erg cdot cal^(-1) .