The kinetic energy of a moving body is given by `k = 2v^(2), k` being in joules and `v` in `m//s`. It's momentum when travelling with a velocity of `2m//s` will be (in `kg ms^(-1)`)

The momentum of a person weighing 60kg walking with a velocity of 2m//s is

The kinetic energy of a body ia 4 joule and its moment of inertia is 2" kg m"^(2) . Angular momentum is

What is the kinetic energy of a body of mass 1 kg moving with a speed of 2 m/s ?

The velocity of a particle moving on the x-axis is given by v=x^(2)+x , where x is in m and v in m/s. What is its position (in m) when its acceleration is 30m//s^(2) .

The rotational kinetic energy of a rigid body of moment of inertia 5 kg-m^(2) is 10 joules. The angular momentum about the axis of rotation would be -

The velocity of a body moving in a straight line is given by v=(3x^(2)+x)m//s . Find acceleration at x=2m .

A particle starts from rest and moves along a straight line such that its acceleration a as a function of velocity v is given as a=(5)/(3v+2) where a is in m/s^(2) and v is in m/s .The distance travelled by the particle till it attains velocity of 10m/s is

The kinetic energy of a body rotating at 300 revolutions per minute is 62.8 J. Its angular momentum (in kg m^(2)s^(-2) ) is approximately