A gas of identical hydrogen like atomos has some atoms in ground state and some atoms in a particular exceited state and dthere are no atoms in any other energy level. The atoms of the gas make transition to a higher energy stte by absrobing monochromatic light of wavelenght 304 `overset(@)A`. Subsequencly, the atoms emit radiation of only six different photon energies. Some of emitted photons have wavelenght `304 overset(@)A`, some wavelength more and some have less that `304 overeset(@)A` (Take he=12420eV`-overset(@)A`)
Identify the gas (Z=?)

A gas of identical hydrogen like atomos has some atoms in ground state and some atoms in a particular exceited state and dthere are no atoms in any other energy level. The atoms of the gas make transition to a higher energy stte by absrobing monochromatic light of wavelenght 304 overset(@)A . Subsequencly, the atoms emit radiation of only six different photon energies. Some of emitted photons have wavelenght 304 overset(@)A , some wavelength more and some have less that 304 overeset(@)A (Take he=12420eV -overset(@)A ) Find the maximum and minimum energies of emitted photosn (in eV)

A gas of identical hydrogen like atomos has some atoms in ground state and some atoms in a particular exceited state and dthere are no atoms in any other energy level. The atoms of the gas make transition to a higher energy stte by absrobing monochromatic light of wavelenght 304 overset(@)A . Subsequencly, the atoms emit radiation of only six different photon energies. Some of emitted photons have wavelenght 304 overset(@)A , some wavelength more and some have less that 304 overeset(@)A (Take he=12420eV -overset(@)A ) Find the principal quantum number of the initially excicted state.

A gas of identical hydrogen-like atoms has some atoms in the lowest in lower (ground) energy level A and some atoms in a partical upper (excited) energy level B and there are no atoms in any other energy level.The atoms of the gas make transition to higher energy level by absorbing monochromatic light of photon energy 2.7 e V . Subsequenty , the atom emit radiation of only six different photon energies. Some of the emitted photons have energy 2.7 e V some have energy more , and some have less than 2.7 e V . a Find the principal quantum number of the intially excited level B b Find the ionization energy for the gas atoms. c Find the maximum and the minimum energies of the emitted photons.

A gas of identical hydrogen-like atoms has some atoms in the lowest in lower (ground) energy level A and some atoms in a partical upper (excited) energy level B and there are no atoms in any other energy level.The atoms of the gas make transition to higher energy level by absorbing monochromatic light of photon energy 2.7 e V . Subsequenty , the atom emit radiation of only six different photon energies. Some of the emitted photons have energy 2.7 e V some have energy more , and some have less than 2.7 e V . a Find the principal quantum number of the intially excited level B b Find the ionization energy for the gas atoms. c Find the maximum and the minimum energies of the emitted photons.

A gas of identical hydrogen-like atoms has some atoms in the lowest in lower (ground) energy level A and some atoms in a partical upper (excited) energy level B and there are no atoms in any other energy level.The atoms of the gas make transition to higher energy level by absorbing monochromatic light of photon energy 2.7 e V . Subsequenty , the atom emit radiation of only six different photon energies. Some of the emitted photons have energy 2.7 e V some have energy more , and some have less than 2.7 e V . a Find the principal quantum number of the intially excited level B b Find the ionization energy for the gas atoms. c Find the maximum and the minimum energies of the emitted photons.