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.

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 identify the particle.

The magnetic force acting on a charged particle of charge - 2muC in a magnetic field of 2T acting in y direction, when the particle velocity is (2hati + 3 hatj) xx 10^6 ms^-1 , is:

The resultant force acting on a particle executing simple harmonic motion is 4N when it is 5cm away from the centre of oscillation. Find the spring constant.

Two particles having charges Q_(1) and Q_(2) , when kept at a certain distance, exert a force F on each other. If the distance between the two particles is reduced to half and the charge on each particle is doubled. Find the force between the particles.

Suppose all the electrons of 100 g are lumped together to form a negatively charged particle and all the nuclei are lumped together to form a positively charge particle. If these two particles are placed 10.0 cm away from each other, then the force of attraction between them. Compare it with your weight.

Two small bodies of masses 2.00 kg and 4.00 kg are kept at rest at a separation of 2.0 m. Where should a particle of mass 0.10 kg be placed to experience no net gravitational force from these bodies? The particle is placed at this point. What is the gravitational potential energy of the system of three particle with usual reference level?

Two particles of masses 1.0 kg and 2.0 kg are placed at a separation of 50 cm. Assuming that the only forces acting on the particles are their mutual gravitation find the initial acceleration of the two particles.

Suppose unknowingly you wrote the universal gravitational constant value as G = 6.67 xx 10^(11) Instead of the correct value G = 6.67 xx 10^(-11) , what is the acceleration due to this new acceleration due to gravity, what will be your weight W'?