Which of the following molecule is not paramagnetic:
1.
2.
3.
4. None of the above
The radius of a hydrogen shell is 0.53Å. In its first excited state, radius of the shell will be:
1. 2.12 Å
2. 1.06 Å
3. 8.5 Å
4. 4.24 Å
Uncertainty in position of a and He is similar. If uncertainty in momentum of is , then uncertainty in momentum of He will be:
1. | 32 × 105 | 2. | 16×105 |
3. | 8 × 105 | 4. | None of the above |
The ionization energy required to remove an electron from the second orbit of \(\text{Li}^{2+}\) is:
1. 122.4 eV
2. 40.8 eV
3. 30.6 eV
4. 13.6 eV
If the energy value is E = 3.03 × 10–19 Joules, (h = 6.6×10–34 J x sec., C = 3×108 m/sec), then the value of the corresponding wavelength is:
1. | 65.3 nm | 2. | 6.53 nm |
3. | 3.4 nm | 4. | 653 nm |
The number of orbitals indicated by the following set of quantum numbers, n = 3, l = 2, m =+2 is:
1. 1
2. 2
3. 3
4. 4
In the Hydrogen atom, the energy of the first excited state is – 3.4 eV. Then find out K.E(kinetic energy) of the same orbit of the Hydrogen atom:
1. + 3.4 eV
2. + 6.8 eV
3. – 13.6 eV
4. + 13.6 eV
The value of Planck's constant is 6.63 × 10–34 J s. The velocity of light is 3.0 × 108 m s–1. The closest value to the wavelength in nanometers of a quantum of light with a frequency of is:
1.
2.
3.
4.
The frequency of radiation emitted when the electron falls from n = 4 to n = 1 in a hydrogen atom will be:
(Given ionization energy of H = 2.18 × 10–18 J atom –1 and h = 6.625 × 10–34 Js):
1. 1.03 × 1015 s–1
2. 3.08 × 1015 s–1
3. 2.00 × 1015 s–1
4. 1.54 × 1015 s–1
The nuclei of which one of the following pairs are isotones:
1. | \(34 \mathrm{Se}^{74},{ }_{31} \mathrm{Ga}^{71}\) | 2. | \({ }_{38} \mathrm{Sr}^{84},{ }_{38} \mathrm{Sr}^{86}\) |
3. | \({ }_{42} \mathrm{Mo}^{92},{ }_{40} \mathrm{Zr}^{92}\) | 4. | \({ }_{20} \mathrm{Ca}^{40},{ }_{16} \mathrm{~S}^{32}\) |