What will be the shortest and longest wavelength of absorption lines of hydrogen gas containing atoms in ground state? Given Z=1, R=109721.5

Find out the longest wavelength of absorption line for hydrogen gas containing atoms in ground state.

What will be the value of the longest wavelength line in Balmer's spectrum for H atom?

A: If a beam of photons of energy 10.0 eV each is incident on a sample of hydrogen gas containing all atoms in the ground state, then the beam of the photons is completely transmitted through the gas without absorption. R: The minimum energy required by an electron to make a transition to an excited state is 10.2 eV .

The longest wavelength that the singly ionized helium atom in its ground state will obsorb is

Energy of the state S_(1) in units of the hydrogen atom ground state energy is

Find out the wavelength of the electron orbiting in the ground state of hydrogen atoms.

If the shortest wavelength in Lyman series of hydrogen atom is A, then the longest wavelength in Paschen series of He^(+) is:

The shortest wavelength of Lyman series of the hydrogen atom is equal to the shortest wavelength of Balmer series of a hydrogen -like atom of atomic number Z. The value of Z is equal to

The shortest wavelength spectral line in the brackett series of the spectrum of atomic hydrogen is the transition :

Calculate the wave number for the longest wavelength transition in the Balmer series of atomic hydrogen . ( R_(H) = 109677 cm^(-1)).