Which one of the following about an electron occupying the 1s orbital in a hydrogen atom is incorrect? (The Bohr radius is represented by a0).
The electron can be found at a distance 2a0 from the nucleus.
The probability density of finding the electron is maximum at the nucleus.
The total energy of the electron is maximum when it is at a distance a0 from the nucleus.
The magnitude of the potential energy is double that of its kinetic energy on a an average.
If p is the momentum of the fastest electron ejected from a metal surface after the irradiation of light having wavelength λ, then for 1.5 p momentum of the photoelectron, the wavelength of the light should be: (Assume kinetic energy of ejected photoelectron to be very high in comparison to work function) :
Among the following, the molecule expected to be stabilized by anion formation is:
C2, O2, NO and F2
NO
C2
F2
O2
For any given series of spectral lines of atomic hydrogen, let be the difference in maximum and minimum frequencies in cm-1. The ratio is:
4 : 1
9 : 4
5 : 4
27.5
The graph between Ψ2 and r(radial diatance) is shown beow . This represents
2s orbital
2p orbital
3s orbital
1s orbital
The ratio of the shortest wavelength of two spectral series of hydrogen spectrum is found to be about 9. The spectral series are:
Paschen and Pfund
Lyman and Paschen
Brackett and Pfund
Balmer and Brackett
Two electrons occupying the same orbital are distinguished by
Magnetic quantum number
Azimuthal quantum number
Spin quantum number
Spin quantum number
C.
Spin quantum number
Two electrons occupying the same orbital has equal spin but the directions of their spin are opposite. Hence, spin quantum number, s(represented +1/2 and -1/2) distinguishes them.
Magnetic moment 2.84 BM is given by (At. no. Ni= 28, Ti= 22, Cr=24, Co = 27)
Ni2+
Ti3+
Cr3+
Cr3+