Two electrons are moving towards each other, each with a velocity of `10^(6)` m/s. What will be closest distance of approach between them ?

Two electrons each moving with a velocity of 10^(6) ms^(-1) are released towards eachother. What will be the closest distance of approach between them ?

A plane mirror and a person are moving towards each other with same velocity v. Then the velocity of the image is

Two streams of electrons are moving parallel to each other in the same direction. They

The distance of closest approach of an alpha-particle fired towards a nucleus with momentum p is r. What will be the distance of closest approach when the momentum of alpha-particle is 2p ?

A bird is flying with a velocity v between two long vertical mirrors making an angle theta with mirror M_(1) as shown. Then what will be the relative velocity of approach between the images formed by the mirrors due to the 1st reflection in each of them

Two waves are approaching each other with a velocity of 20m//s and frequency n . The distance between two consecutive nodes is

Two balls of masses m each are moving at right angle to each other with velocities 6 m/s and 8 m/s respectively. If collision between them is perfectly inelastic, the velocity of combined mass is

Two identical particles move towards each other with velocity 2v and v, respectively. The velocity of the centre of mass is:

Statement-1: Two particles of mass 1 kg and 3 kg move towards each other under their mutual force of attraction. No other force acts on them. When the relative velocity of approach of the two particles is 2 m//s , their centre of mass has a velocity of 0.5 m//s . When the relative velocity of approach becomes 3 m//s the velocity of the centre of mass is 0.75 m//s . Statement-2: The total kinetic energy as seen from ground is 1/2muv_(rel)^(2)+1/2mv_(c)^(2) and in absence of external force, total energy remains conserved.

Two identical balls are approaching towards each other on a straight line with velocity 2m//s and 4m//s , respectiely. Find the final velocities after elastic collision between them.