The force of attraction between the posi...

The force of attraction between the positively charged nucleus and the electron in a hydrogen atom is given by f=k`e^2/r^2`. Assume that the nucleus is fixed. The electrons, initially moving in an orbit of radius `R_1` jumps into an orbit of smaller radius `R_2`. The decrease in the total energy of the atom is

Similar Questions

Explore conceptually related problems

The total energy (E) of the electron is an orbit of radius r in hydrogen atom is

The relation between radius of third orbit r_(3) and radius of first orbit r_(1) in hydrogen atom would be

The angular momentum of the electron moving around the nucleus in a circular orbit of radius r is given by

If an electron in a hydrogen atom is in its 2^("nd") excited state, orbiting the nucleus in a stationary orbit or radius 4.65Å , then its de - Broglie wavelength is

An electron of charge e is moving in a circular orbit of radius r around a nucleus, at a frequency v. The magnetic moment associated with the orbital motion of the electron is

In hydrogen atom, the electron is moving round the nucleus with velocity 2.18xx10^(6)ms^(-1) in an orbit of radius 0.528 A. The acceleration of the electron is .

Total energy possessed by an electron revolving around nucleus in an orbit of radius r is proportional to

If an electron is moving with velocity v in an orbit of radius r in a hydrogen atom, then the equivalent magnetic moment is

In an atom, an electron moves in an orbit of radius r with a speed v , the equivalent current is.

Similar Questions

Recommended Questions