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Q. No.The relation between \(n_m \) (\(n_m \) = number of permissible values of magnetic quantum number (ml) for a given value of azimuthal quantum number (l) is:
1. \(n_m = l+2\)
2. \(l = {\dfrac{n_m -1} 2}\)
3. \(l= 2n_m +1\)
4. \(n_m = 2l^2 + 1 \)
Subtopic: Shell & Subshell |
70%
Level 2: 60%+
NEET - 2023
Hints
Incorrect set of quantum numbers from the following is:
1. n=4,l=3, m1 =-3, -2, -1, 0, +1, +2, +3, ms=-1/2
2. n=5, l=2, m1 =-2, -1, +1, +2, ms=+1/2
3. n=4, l=2, m1 = -2, -1, 0, +1, +2, ms=-1/2
4. n=5,l=3, m1 =-3, -2, -1, 0, +1, +2, +3, ms=+1/2
1. n=4,l=3, m1 =-3, -2, -1, 0, +1, +2, +3, ms=-1/2
2. n=5, l=2, m1 =-2, -1, +1, +2, ms=+1/2
3. n=4, l=2, m1 = -2, -1, 0, +1, +2, ms=-1/2
4. n=5,l=3, m1 =-3, -2, -1, 0, +1, +2, +3, ms=+1/2
Subtopic: Quantum Numbers & Schrodinger Wave Equation |
83%
Level 1: 80%+
NEET - 2023
Hints
Given below are two statements:
In light of the above statements, choose the correct answer from the options given below:
| Statement I: | The value of wave function, \(\Psi\) depends upon the coordinates of the electron in the atom. |
| Statement II: | The probability of finding an electron at a point within an atom is proportional to the orbital wave function. |
| 1. | Statement I is True but Statement II is False. |
| 2. | Statement I is False but Statement II is True. |
| 3. | Both Statement I and Statement II are True. |
| 4. | Both Statement I and Statement II are False. |
Subtopic: Quantum Numbers & Schrodinger Wave Equation |
Level 3: 35%-60%
NEET - 2023
Hints
According to the law of photochemical equivalence, the energy absorbed (in ergs/mole) is given as:
(h = 6.62 × 10–27 ergs, c = 3 × 1010 cm s–1, NA = 6.02 × 1023 mol–1)
(h = 6.62 × 10–27 ergs, c = 3 × 1010 cm s–1, NA = 6.02 × 1023 mol–1)
| 1. | \({{1.196\times 10^{8}}\over{\lambda}}\) | 2. | \({{2.859\times 10^{5}}\over{\lambda}}\) |
| 3. | \({{2.859\times 10^{16}}\over{\lambda}}\) | 4. | \({{1.196\times 10^{16}}\over{\lambda}}\) |
Subtopic: Electromagnetic Radiation |
64%
Level 2: 60%+
NEET - 2013
Hints
The correct statement among the following is/are:
1. (III) only
2. (I) and (III) only
3. (II) and (III) only
4. (I), (II) and (III)
| (I) | \( |\Psi|^2 \) is known as a probability density. |
| (II) | The Schrödinger equation can be easily solved for a multi-electron atom. |
| (III) | An atomic orbital is the wave function \( \Psi\) for an electron in an atom. |
1. (III) only
2. (I) and (III) only
3. (II) and (III) only
4. (I), (II) and (III)
Subtopic: Quantum Numbers & Schrodinger Wave Equation |
59%
Level 3: 35%-60%
Please attempt this question first.
Hints
Please attempt this question first.
Lyman series of hydrogen atom falls in which of the following region of the electromagnetic spectrum?
1. Microwave
2. Ultraviolet
3. Visible
4. Infrared
1. Microwave
2. Ultraviolet
3. Visible
4. Infrared
Subtopic: Type of Spectra |
88%
Level 1: 80%+
Hints
Which of the following pair of d-orbitals has zero electron density along the axis?
1. \(d_\text {xy} ~\text{and}~ d_ {{\text x^2} -{\text y^2} } \)
2. \(d_\text {yz} ~\text{and}~d_{z^2} \)
3. \( d_ {{\text x^2} -{\text y^2}} ~\text{and} ~d_{z^2} \)
4. \(d_\text {xy} ~\text{and}~d_\text {yz} \)
1. \(d_\text {xy} ~\text{and}~ d_ {{\text x^2} -{\text y^2} } \)
2. \(d_\text {yz} ~\text{and}~d_{z^2} \)
3. \( d_ {{\text x^2} -{\text y^2}} ~\text{and} ~d_{z^2} \)
4. \(d_\text {xy} ~\text{and}~d_\text {yz} \)
Subtopic: Nodal Plane |
Level 3: 35%-60%
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Hints
Please attempt this question first.
The threshold frequency \((\nu_0)\) for metal is \(6.0 × 10^{14}~\text {sec}^{-1}\). When radiation of frequency, \(\nu = 1.0 × 10^{15}~\text {sec}^{-1} \) hits the metal, the kinetic energy of the electron emitted is:
[Given: h = 6.62 × 10-34 Js]
1. 3.65 × 10–19 J
2. 2.65 × 10–19 J
3. 1.95 × 10–19 J
4. 2.95 × 10–20 J
[Given: h = 6.62 × 10-34 Js]
1. 3.65 × 10–19 J
2. 2.65 × 10–19 J
3. 1.95 × 10–19 J
4. 2.95 × 10–20 J
Subtopic: Photo Electric Effect |
82%
Level 1: 80%+
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Please attempt this question first.
When electromagnetic radiation of wavelength 300 nm falls on the surface of a metal, electrons are emitted with the kinetic energy of 1.68 × 105 J mol–1. The minimum energy needed to remove one mole of electron from the metal is:
(GivenL: h = 6.626 × 10–34 Js, c = 3 × 108 ms–1, NA = 6.022 × 1023 mol–1)
1. 2.31 × 106 J mol–1
2. 3.84 × 104 J mol–1
3. 3.84 × 10–19 J mol–1
4. 2.31 × 105 J mol–1
(GivenL: h = 6.626 × 10–34 Js, c = 3 × 108 ms–1, NA = 6.022 × 1023 mol–1)
1. 2.31 × 106 J mol–1
2. 3.84 × 104 J mol–1
3. 3.84 × 10–19 J mol–1
4. 2.31 × 105 J mol–1
Subtopic: Photo Electric Effect |
Level 3: 35%-60%
NEET - 2022
Hints
Match List-I with List-II:
Choose the correct answer from the options given below:
| List-I (quantum number) |
List-II (Orbital) |
||
| (A) | n = 2, \(\ell\) = 1 | (I) | 2s |
| (B) | n = 3, \(\ell\) = 2 | (II) | 3s |
| (C) | n = 3, \(\ell\) = 0 | (III) | 2p |
| (D) | n = 2, \(\ell\) = 0 | (IV) | 3d |
| (A) | (B) | (C) | (D) | |
| 1. | (III) | (IV) | (I) | (II) |
| 2. | (IV) | (III) | (I) | (II) |
| 3. | (IV) | (III) | (II) | (I) |
| 4. | (III) | (IV) | (II) | (I) |
Subtopic: Shell & Subshell |
84%
Level 1: 80%+
NEET - 2022
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