For any H like system, the ratio of velocities of electron in I, II & III orbit e.e.,`V_(1):V_(2):V_(3)` will be:

For the given conductor the drift speed of electrons at cross section I, II and III are v_(d_1) , v_(d_2) , " and v_(d_3) , then

The velocity of an electron in the first orbit of H atom is v . The velocity of an electron in the second orbit of He^(+) is

If the radius of an orbit is r and the velocity of electron in it is v , then the frequency of electron in the orbit will be

The velocity of electron moving in 3rd orbit of He^(+) is v. The velocity of electron moving in 2nd orbit of Li^(+2) is

The velocity of an electron in the first orbit of H-atom is v. The velocity of an electron in the 2nd orbit

A sphere A of mass m moving with a velocity hits another stationary sphere B of same mass. If the ratio of the velocity of the sphere after collision is (v_(A))/(v_(B)) = (1 - e)/(1 + e) where e is the cofficient of restitution, what is the initial velocity of sphere A with which it strikes?

Considering the wavelengths of electron and proton to be equal,the ratio of their velocities (v_(e)/(v_(p) would be: (mass of electron =9.1times10^(-31)kg, mass of proton =1.67 times10^(-27)kg