[" inimum possible radiation energy in Bohr's hypothetical "],[qquad [" (c) "4/3," (d) "3/2]]

The ratio of maximum to minimum possible radiation energy in Bohr's hypothetical hydrogen atom is equal to

The ratio of maximum to minimum possible radiation energy Bohr's hypothetical hydrogen atom is equal to

The ratio of maximum to minimum possible radiation energy Bohr's hypothetical hydrogen atom is equal to

Consider an atom made up of a protons and a hypothetical particle of triple the mass of electron but having same charge as electron. Apply bohr model and consider all possible transition of this hypothetical from second excited state to lower states.The possible wavelengths emitted is (are) (given in term of the Rydberg constant R for the hydrogen atom)

Consider an atom made up of a protons and a hypothetical particle of triple the mass of electron but having same charge as electron. Apply bohr model and consider all possible transition of this hypothetical from second excited state to lower states.The possible wavelengths emitted is (are) (given in term of the Rydberg constant R fr the hydrogen atom)

Which of the following angular momentum is not possible according to Bohr's theory? (a)(h/2*pi) (b)(h/(pi) c)2.5h/pi d)h/3*pi

If I exciation energy for the H-like (hypothetical) sample is 24 eV, then binding energy in III excited state is : (a)2eV (b)3eV (c)4eV (d)5eV

The energy of an electron in Bohr's orbit of hydrogen atom is -13.6eV . The total electronic energy of a hypothetical He atom in which there are no electron - electron repulsions or interactions is

The energy of an electron in Bohr's orbit of hydrogen atom is -13.6eV . The total electronic energy of a hypothetical He atom in which there are no electron - electron repulsions or interactions is