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 ?

The wavelength of an electron moving with velocity of 10^(7)ms^(-1) is

A stream of electrons moving with a velocity of 6xx10^(7)ms^(-1) passes between two parallel plates. An electric field of 3000 Vm^(-1) is applied between the plates. Calculate the strength of the magnetic field required to keep the electron undeflected.

The wavelength associated with an electron moving with velocity 10^(10) ms^(-1) is

The de-Broglie wavelength of an electron moving with a velocity 1.5 xx 10^(8)ms^(-1) is equal to that of a photon. The ratio of the kinetic energy of the electron to that of the photon is:

Two parallel layers of water are moving with a relative velocity of 10 cm/s. What will be the velocity gradient if the perpendicular distance between the layers is 0.2 cm.

The distance oif 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 proton moves with a speed of 0.75xx10^(5)ms^(-1) directly towards a free proton originally at rest. Find the distance of closest approach of the two protons. Mass of proton =1.66xx10^(-27)kg .

A particle of mass 1mg has the same wavelength as an electron moving with a velocity of 3xx10^6 ms^(-1) . What is the velocity of the particle ? (Take mass of the electron =9xx10^(-31) kg )