Which of the following pairs of d-orbitals will have electron density along the axes?
1. dz2,dxz
2. dxz,dyz
3. dz2,dx2-y2
4. dxy,dx2-y2
Two electrons occupying the same orbital are distinguished by
(1) Magnetic quantum number
(2) Azimuthal quantum number
(3) Spin quantum number
(4) Principal quantum number
The electronic configurations of Eu (Atomic no. 63), Gd (Atomic no. 64) and Tb (Tb Atomic no. 65) are
1. [Xe]4f65d16s2, [Xe]4f75d16s2 and [Xe]4f96s2
2. [Xe]4f65d16s2, [Xe]4f75d16s2 and [Xe]4f85d16s2
3. [Xe]4f76s2, [Xe]4f75d16s2 and [Xe]4f96s2
4. [Xe]4f76s2, [Xe]4f86s2 and [Xe]4f85d16s2
The magnetic moment of 2.84 BM can be shown by:
(At. no. Ni = 28, Ti = 22, Cr = 24, Co = 27)
1. Ni2+
2. Ti3+
3. Cr3+
4. Co2+
The number of d-electrons in Fe2+ (Z=26) is not equal to the number of electrons in
which one of the following?
1. s-electrons in Mg (Z=12)
2. p-electrons in Cl (Z=17)
3. d-electrons in Fe (Z=26)
4. p-electrons in Ne (Z=10)
Which is the correct order of increasing energy of the listed orbitals in the atom of
titanium?
1. 3s 4s 3p 3d
2. 4s 3s 3p 3d
3. 3s 3p 3d 4s
4. 3s 3p 4s 3d
Calculate the energy in Joule corresponding to light of wavelength 45 nm : (Planck's
constant h = 6.63 x 10-34 Js; speed of light c = 3 x 108 ms-1)
1. 6.67 x 1015
2. 6.67 x 1011
3. 4.42 x10-15
4. 4.42 x 10-18
What is the maximum numbers of electrons that can be associated with the following set
of quantum numbers?
n=3, l = 1 and m=-1
1. 10
2. 6
3. 4
4. 2
From the given equation, certain conclusions are drawn.
\(\mathrm{E}=-2.178 \times 10^{-18} \mathrm{(J)} \frac{\mathrm{z}^2}{\mathrm{n}^2} \)
Choose the incorrect statement:
1. | The negative sign in the equation implies that the energy of an electron bound to the nucleus is lower than it would be if the electron were at an infinite distance from the nucleus. |
2. | The larger the value of n, the greater the orbit radius. |
3. | The equation can be utilized to calculate the change in energy when the electron transitions between orbits. |
4. | For n=1, the electron has a more negative energy than it does for n=6. This means that the electron is more loosely bound in the smallest allowed orbit. |
The maximum number of electrons in a subshell with l = 3 and n = 4 is
1. 14
2. 16
3. 10
4. 12