When a electron jumps from a higher energy state to a lower energy state with an energy different of `DeltaE` electron - volt , then the wavelength of the spectral line emitted is approximately

When electronic transition occurs from higher energy state to lower energy state with energy difference equal to Delta E electron volts , the wavelength of the line emitted is approximately equal to

When electronic transition occurs from higher energy state to lower energy state with energy difference equal to Delta E electron volts , the wavelength of the line emitted is approxmately equal to

When an electron of hydrogen like atom jumps from a higher energy level to a lower energy level.

When electron falls from a higher energy to a lower energy level the difference in the energies appears in the form of

An electron jump from the fourth energy level to the first energy are emitted ?

when an electron falls from a higher energy to a lower energy level the difference in the energies appears in the form of

An electron in H atom jumps from the third energy level to the first energy .The charge in the potential energy of the electron is

When an electron falls from a higher energy to a lower energy level, the difference in the energies appears in the forms of electromagnetic radiation. Why cannot it be emitted as other forms of energy?

An electron is excited from a lower energy state to a higher energy state in a hydrogen atom. Which of the following quantity/quantities decreases/decrease in the excitation ?

The emission spectra is observed by the consequence of transition of electrons from higher energy state to ground state of He^(+) ion. Six different photons are observed during the emission spectra, then what will be the minimum wavelength during the transition?