n a certain system of absoulte units the acceleration produced by gravity in a body falling freely is denoted by 5, the kinetic energy of a 500 kg shot moving with velocity 400 metres per second is denoted by 2000 & its momentum by 100
The unit of mass is :-

n a certain system of absoulte units the acceleration produced by gravity in a body falling freely is denoted by 5, the kinetic energy of a 500 kg shot moving with velocity 400 metres per second is denoted by 2000 & its momentum by 100 The unit of time is :-

In a certain system of absoulte units the acceleration produced by gravity in a body falling freely is denoted by 5, the kinetic energy of a 500 kg shot moving with velocity 400 metres per second is denoted by 2000 & its momentum by 100 The unit of length is :-

In a certain system of absolute units the acceleration produced by gravity in a body falling freely is denoted by 3 , the kinetic energy of a 272.1 kg shot moving with velocity 448 metres per second is denoted by 100 , and its momentum by 10. the unit of mass is

In a certain system of absolute units the acceleration produced by gravity in a body falling freely is denoted by 3 , the kinetic energy of a 272.1 kg shot moving with velocity 448 metres per second is denoted by 100 , and its momentum by 10. The unit of length is

Calculate the kinetic energy of a body of mass 2 kg moving with a velocity of 0.1 meter per second.

Find the value of a and b in the following cases : (a) The velocity v of the ball falling freely under gravity is proportional to g^(a) h^(b) , where g is the acceleration due to gravity, h is the height from which the ball is dropped. (b) The kinetic energy K of a rotating body is proportional to I^(a) omega^(b) where I is the moment if inertia and omega is the angular speed. (c ) The time-period T of spring pendulum is proportiona to m^(a) k^(b) , where m is the mass of block attached to the spring and k is the spring constant. The speed of sound v in a gaseous medium is proportional to P^(a) rho^(b) , where P is the pressure and rho is the density of medium.

A body of masss 1kg is allowed to fall freely under gravity. Find the mimimum and kinetic energy of the body 5 second after it starts falling. Take g= 10 ms^(-2)

There is a concept that if unit of a physical quantity is large then the multiplier of the unit becomes less while expressing any fixed magnitude. If in a new system of unit, unit of time is 0.5 second and the unit of length is 4 metre. Answer the following questions. If unit of time is doubled, the unit of length is halved and unit of mass is increased by a factor n such that a particular force retains its value in both th system of units then the value of n is :

A body having M.I of 5kg-m^(2) about its axis of rotation is rotating with angular velocity of 6 rad/s. The kinetic energy of the rotating body is the same as that of a body of mass 5 kg moving with a speed of

In ancient time, deffernt system of units was following in which unit of mass was " ser ", unit of length was " gaj " & unit of time was " kall " 1ser=900 gm , 1gaj=90cm , 1 kaal=3hr . A ball of mass 9kg is moving with velocity 10 m//s . Then its momentum ( mv ) in ancient system will be :-