In a mixture of `H- He^(+)` gas (`He+ `is singly ionized He atom), `H` atom and `He+` ions are excited to their respective first sxcited state subequendy `H` atoms transfer their total excilation energy to `He+` ions (by collsions) Assume that the bohr model of atom is exactly veld.
The questum number `n` of the state fnally populand in `He^(+)` inos is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The quantum number n of the state finally populated in He^(+) inos is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The quantum number n of the state finally populated in He^(+) inos is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The quantum number n of the state finally populated in He^(+) inos is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first sxcited state subequendy H atoms transfer their total excilation energy to He+ ions (by collsions) Assume that the bohr model of atom is exactly veld. The ratio of the kinetic energy of the n = 2 electron for the H atom to the of He^(+) lon is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first sxcited state subequendy H atoms transfer their total excilation energy to He+ ions (by collsions) Assume that the bohr model of atom is exactly veld. The wavelength of light emitted in the visible region by He+ lons after collisions with H atoms is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The ratio of the kinetic energy of the n = 2 electron for the H atom to the of He^(+) lon is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The wavelength of light emitted in the visible region by He+ lons after collisions with H atoms is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The wavelength of light emitted in the visible region by He+ lons after collisions with H atoms is -

In a mixture of H- He^(+) gas ( He+ is singly ionized He atom), H atom and He+ ions are excited to their respective first excited state. Subsequently H atoms transfer their total excitation energy to He+ ions (by collisions) Assume that the bohr model of atom is exactly valid. The wavelength of light emitted in the visible region by He+ lons after collisions with H atoms is -