Home
Class 12
PHYSICS
An gas of H-atom in excited state n(2) a...

An gas of H-atom in excited state `n_(2)` absorbs a photon of some energy and jump in hiegher energy state `n_(1)`. Then it returns to ground state afer emitted six different wavelengths in emission spectrum. The energy of emitted photon is equal, less or greater than the energy of absorbed photon then `n_(1)` and `n_(2)` will be

Promotional Banner

Similar Questions

Explore conceptually related problems

An electron in hydrogen atom after absorbing an energy photo jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelength in emission spectrum. The energy of emitted photons is either equal, to less than or greater than the absorbed photons . then n_(1) and n_(2)

An electron in hydrogen atom after absorbing-an energy photon jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelengths in emission spectrum.'The energy of emitted photons is either equal to, less than or grater than the absorbed photons: Then n_(1) and n_(2) are:

An electron in hydrogen atom after absorbing-an energy photon jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelengths in emission spectrum.'The energy of emitted photons is either equal to, less than or grater than the absorbed photons: Then n_(1) and n_(2) are:

An electron in hydrogen atom after absorbing-an energy photon jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelengths in emission spectrum.'The energy of emitted photons is either equal to, less than or grater than the absorbed photons: Then n_(1) and n_(2) are:

A hydrogen atom is in its ground state absorbs a photon. The maximum energy of such a photon is:

The electron in a hydrogen atom is in n=2 state. When it drops to the ground state a photon is emitted. What is the wavelength of photon?

A hydrogen like atom in ground st6ate abserbs n photon having the same energy and its emit exacity n photon when electron transition tekes placed .Then the energy of the absorbed photon may be

A hydrogen like atom in ground st6ate abserbs n photon having the same energy and its emit exacity n photon when electron transition tekes placed .Then the energy of the absorbed photon may be

A hydrogen like atom in ground state absorbs .n. photons having the same energy nad it emits exactly .n. photons when electronic transition takes place. Then the energy of the absorbed photon may be

A unielectronic species is in some excited state 'A' and on absorbing a photon of energy 'x' eV gets promoted to a new state 'B' . On de-excitation back to the ground state a total of 10 different wavelengths were emitted in which seven have energy greater than 'x' eV . What will be the ionisation energy ?