Lines of Lyman series are emitted by the hydrogen atom when the electron jumps

The Lyman series involves

Show that the frequency of the first line in Lyman series is equal to the difference between the limiting frequencies of Lyman and Balmer series.

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

Determine the energies of the first two excited states of the electron in hydrogen atom. What are the excitation energies of the electrons in these orbits?

The total energy of an electron in the first excited state of the hydrogen atom is about -3.4eV . What is the potential energy of the electron in this state?

The total energy of an electron in the first excited state of the hydrogen atom is about -3.4eV . What is the kinetic energy of the electron in this state?

Find the velocity of the electron in the ground state of hydrogen atom.Hence find the velocities when the electron is in the second and fourth orbit.(Radius of the first Bohr orbit = 0.53xx10^-10m , mass of electron= 9.1xx10^-31 kg )

Obtain an expression for the frequency of radiation emitted when a hydrogen atom de-excites from level n to level (n-1) . For large n, shows that this frequency equals the classical frequency of revolution of the electron in the 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.