As the radius of orbit in Bohr's atom increases the P.E. of the electron

Energy of third orbit of BOhr's atom is

As the radius of the orbit goes on decreasing the electrons should emit a radiation of

Calculate the frequency of revolution of the electron in the first Bohr orbit of H-atom, if the radius of the 1st Bohr orbit is 0.50 A^@ and the velocity of electron in the first orbit = 2.24 xx 10^6 m//s .

Energy of an electron in the first Bohr orbit is -13.6eV. Hence calculate the energy of the electron in second orbit.

Find the velocity of the electron in the first orbit in hydrogen atom. Hence, find velocities when electron is in 3rd and 5th orbit.

If the radius of 1st Bohr orbit in hydrogen atom is 0.5 A^@ 'then radius of 3rd Bohr orbit is

Find the radius of second Bohr orbit in hydrogen atom and hence find the radius of the third orbit.

Find the linear momentum of the electron in the 2nd Bohr orbit. And hence find the angular momentum of the electron in hydrogen atom.

An electron revolves round the nucleus with the radius of the circular orbit being 'r'. To double the kinetic energy of the electron its orbital radius will be

According to Bohr's atomic model