Magnetic moment due to the motion of the electron in energy state of a hydrogen atom is proportional to
1. n
2.
3.
4.
The energy of a hydrogen atom in its ground state is —13.6 eV. The energy of the level corresponding to the quantum number n = 2 (first excited state) in the hydrogen atom is:
1. -2.72 eV
2. - 0.85 eV
3. -0.54 eV
4. — 3.4 eV
When the electron of a hydrogen-like atom jumps from a higher energy level to a lower energy level, then,
1. the angular momentum of the electron remains constant.
2. the kinetic energy of the electron increases.
3. the wavelength of the de-Broglie wave associated with the motion of the electron increases.
4. the potential energy increases.
The frequency Of radiation emitted during the transition of an electron from a second excited state to a first excited state in H-atom is The frequency of the same transition emitted by a singly ionized He ion is
1.
2.
3.
4.
The longest and shortest wavelength of the Lyman series are (respectively)
1.
2.
3.
4.
The ratio of wavelengths of the last line of Balmer series and the last line of Lyman series is:
(1) 2
(2) 1
(3) 4
(4) 0.05
Given the value of Rydberg constant is , the wave number of the last line of the Balmer series in hydrogen spectrum will be:
(a) (b)
(c) (d)
Electron in hydrogen atom first jumps from third exicted state to second exicted state and then from second exicted to the first excited state. The ratio of the wavelengths emitted in the two cases is
(1) 7/5
(2) 27/20
(3) 27/5
(4) 20/7