When an electron falls from 4th orbit to 2nd orbit in hydrogen atom, the spectral line is observed in

When an electron falls from higher orbit to third in hydrogen atom, the spectral line observed

The energy of an electron in the 1st Bohr orbit of hydrogen atom is

An electron jumps from the 4^(th) orbit to the 2^(nd) orbit of hydrogen atom. Given the Rydberg's constant R=10^5cm^-1 . The frequency in Hz of the emitted radiation is

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

Starting from the formula for energy of an electron in the nth orbit of hydrogen atom, derive the formula for the wavelength of spectral lines.

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

Find the angular speed of the electron in the first orbit of hydrogen atom.

Find the period of revolution of electron in the second orbit in the hydrogen atom and hence find period of revolution of the electron in the third orbit of hydrogen atom. epsilon_0 = 8.85 xx 10^-12 C^2// Nm^2, h=6.63 xx^-34 J-s, m=9.xx10^-31 kg, e =1.6 xx 10^-19 C .

Calculate the radius of the 3^(rd) orbit of the electron in hydrogen atom