The gravitational force acting on a particle of 1 g due to a similar particle is equal to `6.67xx10^-17 N`. Calculate the separation between the particles.

The rate of doing work by force acting on a particle moving along x-axis depends on position x of particle and is equal to 2x. The velocity of particle is given by expression :-

Discuss the forces acting on the n particles in a system.

A particle is moving three times as Fast as an electron .The ratio of the de-Broglie wavelength of the particle to that of the electron is 1.813xx10^(-4) . Calculate the particle's mass and indentify the particle.

A particle is moving three times as fast as an electron. The ratio of the de Broglie wavelength of the particle to that of the electron is 1.813 xx 10^(-4) . Calculate the particle’s mass and identify the particle.

A particle is moving 1.5 times as fast as an electron.The ratio of the de-Broglie wavelength of the particle to that of the electron is 1.813xx10^(-4) Calculate the particle's mass and identify the particle

The uncertainty in the momentum of a particle is 6xx10^(-9)kg ms^(-1) . Calculate the uncertainty in its position.

The gravitational force between two objects is proportional to 1//R (and not as 1//R^(2) ) where R is separation between them, then a particle in circular orbit under such a force would have its orbital speed v proportional to

As shown in figure , four masses each of mass 3sqrt2 kg at the corners of a square of side 3 m . Calculate the gravitational potential energy of system of these four particles. Also calculate the gravitational potential at the centre of square. (G = 6.67 x 10^(-11) SI unit)