Suppose that in any Bohr atom or ion orbits are only in even number like 2, 4, 6……. The maximum wavelength of radiation emitted in the visible region of gydrogen spectrum should be,

What should be the ratio of minimum to maximum wavelength of radiation emitted by transition of an electron to ground state of Bohr's hydrogen atom ?

What should be the ratio of minimum to maximum wavelength of radiation emitted by transition of an electron to ground state of Bohr's hydrogen atom ?

The nagative muon has charge equal to that of an electron but a mass that is 207 times as great. Consider hydrogen like atom consisting of a proton and a muon. (a) What is the reduced mass of the atom? (b) What is the ground-level energy (in eV)? (c ) What is the wavelength of the radiation emitted in the transiton from the n=2 level to the n=1 level?

The wavelength of the radiation emitted when an electron falls from Bohr 's orbit 4 to 2 in H atom is

The ionization energy of a hydrogen like bohr atom is 4 Rydbergs (i) What is the wavelength of the radiation emitted when the electron jumps from the first excited state to the ground state ?(ii) what is the radius of the orbit for this atom ?

What is the ratio of minimum to maximum wavelength of radiation emitted by electron when it jump from as higher state to ground state in Li^(2+) ion ?

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 -

The ionization energy of a hydrogen like Bohr atom is 5 Rydberg, (a) What is the wavelength of radiation emitted when the electron jumps from the first excited state to the ground state? (b) What is the radius of the first orbit for this atom? Given that Bohr radius of hydrogen atom = 5 xx 10^(-11) m and 1 Rydberg = 2.2xx10^(-18)J

The ground state energy of hydrogen atom is -13.6eV . If an electron makes a transition form an energy level -0.85 eV to -3.4 eV , calculate the wavelength of spectral line emitted. To which series of hydrogen spectrum does this wavelength belongs?