| 1 |
Which of the following molecules has unpaired electrons in anti-bonding molecular orbitals? |
O<sub>2</sub>
N<sub>2</sub>
Br<sub>2</sub>
F<sub>2</sub>
|
| 2 |
The force which holds the atoms together to form a compound is called |
A chemical bond
Van der waal's force
Dispersion force
London force
|
| 3 |
The energy of ionization of an atom is the energy difference between orbital |
|
| 4 |
Four d-orbitals contain four lobes while fifth contains only two lobes the orbital is |
dxy
dxz
dz<sup>2</sup>
dx<sup>2</sup>- y<sup>2</sup>
|
| 5 |
When 6s orbital is complete then next electron goes to |
6p
6d
5d
4f
|
| 6 |
The arrangement of subshells in the ascending order of their energy on complete filing of 4f subshell the entering electrons goes to |
5s
5p
5d
5f
|
| 7 |
Electrons arranged in orbitals according to the increasing order of their n + l values, this rule is named as |
Hund's rule
Heisenberg's principle
Paulit exclusion principle
Auf bau principle
|
| 8 |
The degenerate orbitals p-sub shell are |
2
3
5
7
|
| 9 |
An orbital can accommodate maximum two electrons with opposite spins according to |
Heisenberg's principle
Aufbau principle
Hund's srule
Pauli exclusion principle
|
| 10 |
Their e/m, ratio resembles with that of electrons |
Alpha rays
Beta rays
Gamma rays
X-rays
|
| 11 |
The orbitals having n + l = 5 are |
2p, 3d,3s
3p, 3d, 5s
3s, 4p, 4d
5s, 4p, 3d
|
| 12 |
For a 3P subshell the set of principle and azimuthal quantum number is |
n = 1 , l = 2
n = 3, l = 0
n = 3, l = 1
n = 1, l = 3
|
| 13 |
The total values of magnetic quantum number of subshell are five, the subshell is |
S-subshell
P-subshell
D-subshell
F-subshell
|
| 14 |
The size of electronic shell is described by |
Azimuthal Q. no
Magnetic Q.No
Spin Q. No
Principle Q. No
|
| 15 |
Schrodinger wave equation describes electron completely because |
It describes a set of four quantum number
It describes the particle nature of electron
It measures wavelength of electron
It describes electron moving in specific orbit
|
| 16 |
The value of Plank's constant 'h' is |
6.625 x 10<sup>-34</sup>
6.625 x 10<sup>-34</sup>J sec
6.625 x 10<sup>-34</sup>KJ
6.625 x 10<sup>-34</sup>K Cal
|
| 17 |
The uncertainty principle was stated only |
De Brogilie
Heinsenberg
Einstein
Schrodinger
|
| 18 |
|
Plank's equations
de Broglie's equations
Heisenburg's equation
None
|
| 19 |
The divisibility of atom was shown by |
Stoney
J.J. Thomson
Millikan
Rutherford
|
| 20 |
The wave number of the line emitted is 109.678 x 105m-1in the Lyman series when electron transition occurs |
|
| 21 |
Light emitted from a source has its wave length 500nm, then its wave number will be |
2 x 10<sup>6</sup>m<sup>-1</sup>
2 x 10<sup>7</sup>m<sup>-1</sup>
5 x 10<sup>8 </sup>m<sup>-1</sup>
5 x 10<sup>9</sup>m<sup>-1</sup>
|
| 22 |
In the ground state of an atom the electron is present |
In the nucleus
In the second shell
Nearest to the nucleus
Farthest from the nucleus
|
| 23 |
Splitting of spectral lines of the hydrogen atom under the influence or magnetic field is called |
Stark effect
Zeeman effect
Compton effect
Photoelectric effect
|
| 24 |
The limiting line of Blamer series in hydrogen spectrum lies in |
Visible regions
Ultraviolet region
Infrared region
x-rays region
|
| 25 |
When electron jumps from n2= 2,3,4,5,.... orbit to n1= 1 orbit in the hydrogen atom, the radiations emitted give the spectral lines |
Lyman series
Blamer series
Paschen series
Brackett series
|
| 26 |
In the atomic emission spectrum the lines which appear bright, appear dark in absorption spectrum because |
The radiations emitted in emission spectrum are absorbed in absorption spectrum
Atomic emission spectrum is continuous
Atomic absorption spectrum is continuous
Distance between the lines increases
|
| 27 |
Energy of electron in an orbit according to Bohr theory is negative due to |
Repulsion of electrons in the same orb
At infinity energy is zero ad a traction towards nucleus decreases energy
Electron has negative charge
Product of positive nuclear charge and negative charge is negative
|
| 28 |
In Bohr model of hydrogen atom the distance between adjacent orbits increases away from the nucleus, the energy difference between the orbits |
Increases
Decreases
Reaming same
Orbits coincide
|
| 29 |
Energy of electron in the infinite Bohr orbit of H-atom is |
0 KJ/mole
1 KJ/mole
-1 KJ/mole
-1313.32 KJ/mole
|
| 30 |
Energy of electron in first orbit of H atom is |
-45.32 KJ/mole
-82.08 KJ/mole
-52.53 KJ/mole
-1313.31 KJ/mole
|
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