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 Page 1


Q1 - 2024 (01 Feb Shift 1) 
The minimum energy required by a hydrogen atom in ground state to emit radiation in 
Balmer series is nearly: 
(1) 1.5eV 
(2) 13.6eV 
(3) 1.9eV 
(4) 12.1eV 
Solution: (4) 
Transition from ?? = 1 to ?? = 3?E = 12.1eV 
 
Q2 - 2024 (01 Feb Shift 2) 
A particular hydrogen - like ion emits the radiation of frequency 3×10
15
Hz when it 
makes transition from ?? = 2to ?? = 1. The frequency of radiation emitted in transition from 
n = 3 to n = 1is 
?? 9
×10
15
Hz, when x = 
Solution: 32 
?? = -13.6?? 2
 
1
?? ?? 2
-
1
?? ?? 2
  
E = C 
1
n
f
2
-
1
n
i
2
  
h?? = ?? 
1
?? ?? 2
-
1
?? ?? 2
  
?? 1
?? 2
=
 
1
?? ?? 2
-
1
?? ?? 2
 
2-1
 
1
?? ?? 2
-
1
?? ?? 2
 
3-1
 
=
 
1
1
-
1
4
 
 
1
1
-
1
9
 
=
3/4
8/9
 
=
3
4
×
9
8
 
?? 1
?? 2
=
27
32
 
?? 2
=
32
27
?? 1
=
32
27
×3×10
15
Hz =
32
9
×10
15
Hz 
 
Q3 - 2024 (27 Jan Shift 1) 
The radius of third stationary orbit of electron for Bohr's atom is R. The radius of fourth 
stationary orbit will be: 
Page 2


Q1 - 2024 (01 Feb Shift 1) 
The minimum energy required by a hydrogen atom in ground state to emit radiation in 
Balmer series is nearly: 
(1) 1.5eV 
(2) 13.6eV 
(3) 1.9eV 
(4) 12.1eV 
Solution: (4) 
Transition from ?? = 1 to ?? = 3?E = 12.1eV 
 
Q2 - 2024 (01 Feb Shift 2) 
A particular hydrogen - like ion emits the radiation of frequency 3×10
15
Hz when it 
makes transition from ?? = 2to ?? = 1. The frequency of radiation emitted in transition from 
n = 3 to n = 1is 
?? 9
×10
15
Hz, when x = 
Solution: 32 
?? = -13.6?? 2
 
1
?? ?? 2
-
1
?? ?? 2
  
E = C 
1
n
f
2
-
1
n
i
2
  
h?? = ?? 
1
?? ?? 2
-
1
?? ?? 2
  
?? 1
?? 2
=
 
1
?? ?? 2
-
1
?? ?? 2
 
2-1
 
1
?? ?? 2
-
1
?? ?? 2
 
3-1
 
=
 
1
1
-
1
4
 
 
1
1
-
1
9
 
=
3/4
8/9
 
=
3
4
×
9
8
 
?? 1
?? 2
=
27
32
 
?? 2
=
32
27
?? 1
=
32
27
×3×10
15
Hz =
32
9
×10
15
Hz 
 
Q3 - 2024 (27 Jan Shift 1) 
The radius of third stationary orbit of electron for Bohr's atom is R. The radius of fourth 
stationary orbit will be: 
(1) 
4
3
R 
(2) 
16
9
?? 
(3) 
3
4
?? 
(4) 
9
16
R 
Solution: (2) 
?? ?
?? 2
?? 
?? 4
?? 3
=
4
2
3
2
 
?? 4
=
16
9
?? 
 
Q4 - 2024 (27 Jan Shift 2) 
If Rydberg's constant is R, the longest wavelength of radiation in Paschen series will be 
?? 7?? , where ?? = 
Solution: 144 
Longest wavelength corresponds to transition between n = 3 and n = 4 
1
?? = RZ
2
 
1
3
2
-
1
4
2
 = RZ
2
 
1
9
-
1
16
  
=
7RZ
2
9×16
 
? ?? =
144
7R
forZ= 1 ? ?? = 144 
 
Q5 - 2024 (29 Jan Shift 1) 
When a hydrogen atom going from n = 2 to n= 1 emits a photon, its recoil speed is 
x
5
m/s. Where x = . (Use : mass of hydrogen atom = 1.6×10
-27
kg ) 
Solution: 17 
Page 3


Q1 - 2024 (01 Feb Shift 1) 
The minimum energy required by a hydrogen atom in ground state to emit radiation in 
Balmer series is nearly: 
(1) 1.5eV 
(2) 13.6eV 
(3) 1.9eV 
(4) 12.1eV 
Solution: (4) 
Transition from ?? = 1 to ?? = 3?E = 12.1eV 
 
Q2 - 2024 (01 Feb Shift 2) 
A particular hydrogen - like ion emits the radiation of frequency 3×10
15
Hz when it 
makes transition from ?? = 2to ?? = 1. The frequency of radiation emitted in transition from 
n = 3 to n = 1is 
?? 9
×10
15
Hz, when x = 
Solution: 32 
?? = -13.6?? 2
 
1
?? ?? 2
-
1
?? ?? 2
  
E = C 
1
n
f
2
-
1
n
i
2
  
h?? = ?? 
1
?? ?? 2
-
1
?? ?? 2
  
?? 1
?? 2
=
 
1
?? ?? 2
-
1
?? ?? 2
 
2-1
 
1
?? ?? 2
-
1
?? ?? 2
 
3-1
 
=
 
1
1
-
1
4
 
 
1
1
-
1
9
 
=
3/4
8/9
 
=
3
4
×
9
8
 
?? 1
?? 2
=
27
32
 
?? 2
=
32
27
?? 1
=
32
27
×3×10
15
Hz =
32
9
×10
15
Hz 
 
Q3 - 2024 (27 Jan Shift 1) 
The radius of third stationary orbit of electron for Bohr's atom is R. The radius of fourth 
stationary orbit will be: 
(1) 
4
3
R 
(2) 
16
9
?? 
(3) 
3
4
?? 
(4) 
9
16
R 
Solution: (2) 
?? ?
?? 2
?? 
?? 4
?? 3
=
4
2
3
2
 
?? 4
=
16
9
?? 
 
Q4 - 2024 (27 Jan Shift 2) 
If Rydberg's constant is R, the longest wavelength of radiation in Paschen series will be 
?? 7?? , where ?? = 
Solution: 144 
Longest wavelength corresponds to transition between n = 3 and n = 4 
1
?? = RZ
2
 
1
3
2
-
1
4
2
 = RZ
2
 
1
9
-
1
16
  
=
7RZ
2
9×16
 
? ?? =
144
7R
forZ= 1 ? ?? = 144 
 
Q5 - 2024 (29 Jan Shift 1) 
When a hydrogen atom going from n = 2 to n= 1 emits a photon, its recoil speed is 
x
5
m/s. Where x = . (Use : mass of hydrogen atom = 1.6×10
-27
kg ) 
Solution: 17 
 
??? = 10.2eV 
Recoil speed (v) =
?E
mc
 
=
10.2eV
1.6×10
-27
×3×10
8
 
=
10.2×1.6×10
-19
1.6×10
-27
×3×10
8
 
v = 3.4m/s=
17
5
m/s 
Therefore, ?? = 17 
 
Q6 - 2024 (29 Jan Shift 2) 
Given below are two statements : 
Statement I : Most of the mass of the atom and all its positive charge are concentrated in 
a tiny nucleus and the electrons revolve around it, is Rutherford's model. 
Statement II : An atom is a spherical cloud of positive charges with electrons embedded 
in it, is a special case of Rutherford's model. 
In the light of the above statements, choose the most appropriate from the options given 
below. 
(1) Both statement I and statement II are false 
(2) Statement I is false but statement II is true 
(3) Statement I is true but statement II is false 
(4) Both statement I and statement II are true 
Solution: (3) 
According to Rutherford atomic model, most of mass of atom and all its positive charge 
is concentrated in tiny nucleus & electron revolve around it. 
According to Thomson atomic model, atom is spherical cloud of positive charge with 
electron embedded in it. 
Hence, 
Statement I is true but statement II false. 
Q7 - 2024 (29 Jan Shift 2) 
Hydrogen atom is bombarded with electrons accelerated through a potential different of 
V, which causes excitation of hydrogen atoms. If the experiment is being formed at 
Page 4


Q1 - 2024 (01 Feb Shift 1) 
The minimum energy required by a hydrogen atom in ground state to emit radiation in 
Balmer series is nearly: 
(1) 1.5eV 
(2) 13.6eV 
(3) 1.9eV 
(4) 12.1eV 
Solution: (4) 
Transition from ?? = 1 to ?? = 3?E = 12.1eV 
 
Q2 - 2024 (01 Feb Shift 2) 
A particular hydrogen - like ion emits the radiation of frequency 3×10
15
Hz when it 
makes transition from ?? = 2to ?? = 1. The frequency of radiation emitted in transition from 
n = 3 to n = 1is 
?? 9
×10
15
Hz, when x = 
Solution: 32 
?? = -13.6?? 2
 
1
?? ?? 2
-
1
?? ?? 2
  
E = C 
1
n
f
2
-
1
n
i
2
  
h?? = ?? 
1
?? ?? 2
-
1
?? ?? 2
  
?? 1
?? 2
=
 
1
?? ?? 2
-
1
?? ?? 2
 
2-1
 
1
?? ?? 2
-
1
?? ?? 2
 
3-1
 
=
 
1
1
-
1
4
 
 
1
1
-
1
9
 
=
3/4
8/9
 
=
3
4
×
9
8
 
?? 1
?? 2
=
27
32
 
?? 2
=
32
27
?? 1
=
32
27
×3×10
15
Hz =
32
9
×10
15
Hz 
 
Q3 - 2024 (27 Jan Shift 1) 
The radius of third stationary orbit of electron for Bohr's atom is R. The radius of fourth 
stationary orbit will be: 
(1) 
4
3
R 
(2) 
16
9
?? 
(3) 
3
4
?? 
(4) 
9
16
R 
Solution: (2) 
?? ?
?? 2
?? 
?? 4
?? 3
=
4
2
3
2
 
?? 4
=
16
9
?? 
 
Q4 - 2024 (27 Jan Shift 2) 
If Rydberg's constant is R, the longest wavelength of radiation in Paschen series will be 
?? 7?? , where ?? = 
Solution: 144 
Longest wavelength corresponds to transition between n = 3 and n = 4 
1
?? = RZ
2
 
1
3
2
-
1
4
2
 = RZ
2
 
1
9
-
1
16
  
=
7RZ
2
9×16
 
? ?? =
144
7R
forZ= 1 ? ?? = 144 
 
Q5 - 2024 (29 Jan Shift 1) 
When a hydrogen atom going from n = 2 to n= 1 emits a photon, its recoil speed is 
x
5
m/s. Where x = . (Use : mass of hydrogen atom = 1.6×10
-27
kg ) 
Solution: 17 
 
??? = 10.2eV 
Recoil speed (v) =
?E
mc
 
=
10.2eV
1.6×10
-27
×3×10
8
 
=
10.2×1.6×10
-19
1.6×10
-27
×3×10
8
 
v = 3.4m/s=
17
5
m/s 
Therefore, ?? = 17 
 
Q6 - 2024 (29 Jan Shift 2) 
Given below are two statements : 
Statement I : Most of the mass of the atom and all its positive charge are concentrated in 
a tiny nucleus and the electrons revolve around it, is Rutherford's model. 
Statement II : An atom is a spherical cloud of positive charges with electrons embedded 
in it, is a special case of Rutherford's model. 
In the light of the above statements, choose the most appropriate from the options given 
below. 
(1) Both statement I and statement II are false 
(2) Statement I is false but statement II is true 
(3) Statement I is true but statement II is false 
(4) Both statement I and statement II are true 
Solution: (3) 
According to Rutherford atomic model, most of mass of atom and all its positive charge 
is concentrated in tiny nucleus & electron revolve around it. 
According to Thomson atomic model, atom is spherical cloud of positive charge with 
electron embedded in it. 
Hence, 
Statement I is true but statement II false. 
Q7 - 2024 (29 Jan Shift 2) 
Hydrogen atom is bombarded with electrons accelerated through a potential different of 
V, which causes excitation of hydrogen atoms. If the experiment is being formed at 
T = 0K. The minimum potential difference needed to observe any Balmer series lines in 
the emission spectra will be 
?? 10
V, where ?? = 
Solution: (121) 
For minimum potential difference electron has to make transition from ?? = 3 to ?? = 2 
state but first electron has to reach to n = 3 state from ground state. So, energy of 
bombarding electron should be equal to energy difference of ?? = 3 and ?? = 1 state. 
?E = 13.6 1 -
1
3
2
 e = eV 
13.6×8
9
= V 
V = 12.09V ˜ 12.1V 
So, ?? = 121 
 
Q8 - 2024 (30 Jan Shift 1) 
The ratio of the magnitude of the kinetic energy to the potential energy of an electron in 
the 5
th 
 excited state of a hydrogen atom is: 
(1) 4 
(2) 
1
4
 
(3) 
1
2
 
(4) 1 
Solution: (3) 
1
2
|?? ?? | = ?? ?? for each value of n (orbit) 
?
?? ?? |?? ?? |
=
1
2
 
 
Q9 - 2024 (30 Jan Shift 1) 
A electron of hydrogen atom on an excited state is having energy E
n
= -0.85eV. The 
maximum number of allowed transitions to lower energy level is 
Solution: 6 
?? ?? = -
13.6
?? 2
= -0.85 
? ?? = 4 
No of transition 
Page 5


Q1 - 2024 (01 Feb Shift 1) 
The minimum energy required by a hydrogen atom in ground state to emit radiation in 
Balmer series is nearly: 
(1) 1.5eV 
(2) 13.6eV 
(3) 1.9eV 
(4) 12.1eV 
Solution: (4) 
Transition from ?? = 1 to ?? = 3?E = 12.1eV 
 
Q2 - 2024 (01 Feb Shift 2) 
A particular hydrogen - like ion emits the radiation of frequency 3×10
15
Hz when it 
makes transition from ?? = 2to ?? = 1. The frequency of radiation emitted in transition from 
n = 3 to n = 1is 
?? 9
×10
15
Hz, when x = 
Solution: 32 
?? = -13.6?? 2
 
1
?? ?? 2
-
1
?? ?? 2
  
E = C 
1
n
f
2
-
1
n
i
2
  
h?? = ?? 
1
?? ?? 2
-
1
?? ?? 2
  
?? 1
?? 2
=
 
1
?? ?? 2
-
1
?? ?? 2
 
2-1
 
1
?? ?? 2
-
1
?? ?? 2
 
3-1
 
=
 
1
1
-
1
4
 
 
1
1
-
1
9
 
=
3/4
8/9
 
=
3
4
×
9
8
 
?? 1
?? 2
=
27
32
 
?? 2
=
32
27
?? 1
=
32
27
×3×10
15
Hz =
32
9
×10
15
Hz 
 
Q3 - 2024 (27 Jan Shift 1) 
The radius of third stationary orbit of electron for Bohr's atom is R. The radius of fourth 
stationary orbit will be: 
(1) 
4
3
R 
(2) 
16
9
?? 
(3) 
3
4
?? 
(4) 
9
16
R 
Solution: (2) 
?? ?
?? 2
?? 
?? 4
?? 3
=
4
2
3
2
 
?? 4
=
16
9
?? 
 
Q4 - 2024 (27 Jan Shift 2) 
If Rydberg's constant is R, the longest wavelength of radiation in Paschen series will be 
?? 7?? , where ?? = 
Solution: 144 
Longest wavelength corresponds to transition between n = 3 and n = 4 
1
?? = RZ
2
 
1
3
2
-
1
4
2
 = RZ
2
 
1
9
-
1
16
  
=
7RZ
2
9×16
 
? ?? =
144
7R
forZ= 1 ? ?? = 144 
 
Q5 - 2024 (29 Jan Shift 1) 
When a hydrogen atom going from n = 2 to n= 1 emits a photon, its recoil speed is 
x
5
m/s. Where x = . (Use : mass of hydrogen atom = 1.6×10
-27
kg ) 
Solution: 17 
 
??? = 10.2eV 
Recoil speed (v) =
?E
mc
 
=
10.2eV
1.6×10
-27
×3×10
8
 
=
10.2×1.6×10
-19
1.6×10
-27
×3×10
8
 
v = 3.4m/s=
17
5
m/s 
Therefore, ?? = 17 
 
Q6 - 2024 (29 Jan Shift 2) 
Given below are two statements : 
Statement I : Most of the mass of the atom and all its positive charge are concentrated in 
a tiny nucleus and the electrons revolve around it, is Rutherford's model. 
Statement II : An atom is a spherical cloud of positive charges with electrons embedded 
in it, is a special case of Rutherford's model. 
In the light of the above statements, choose the most appropriate from the options given 
below. 
(1) Both statement I and statement II are false 
(2) Statement I is false but statement II is true 
(3) Statement I is true but statement II is false 
(4) Both statement I and statement II are true 
Solution: (3) 
According to Rutherford atomic model, most of mass of atom and all its positive charge 
is concentrated in tiny nucleus & electron revolve around it. 
According to Thomson atomic model, atom is spherical cloud of positive charge with 
electron embedded in it. 
Hence, 
Statement I is true but statement II false. 
Q7 - 2024 (29 Jan Shift 2) 
Hydrogen atom is bombarded with electrons accelerated through a potential different of 
V, which causes excitation of hydrogen atoms. If the experiment is being formed at 
T = 0K. The minimum potential difference needed to observe any Balmer series lines in 
the emission spectra will be 
?? 10
V, where ?? = 
Solution: (121) 
For minimum potential difference electron has to make transition from ?? = 3 to ?? = 2 
state but first electron has to reach to n = 3 state from ground state. So, energy of 
bombarding electron should be equal to energy difference of ?? = 3 and ?? = 1 state. 
?E = 13.6 1 -
1
3
2
 e = eV 
13.6×8
9
= V 
V = 12.09V ˜ 12.1V 
So, ?? = 121 
 
Q8 - 2024 (30 Jan Shift 1) 
The ratio of the magnitude of the kinetic energy to the potential energy of an electron in 
the 5
th 
 excited state of a hydrogen atom is: 
(1) 4 
(2) 
1
4
 
(3) 
1
2
 
(4) 1 
Solution: (3) 
1
2
|?? ?? | = ?? ?? for each value of n (orbit) 
?
?? ?? |?? ?? |
=
1
2
 
 
Q9 - 2024 (30 Jan Shift 1) 
A electron of hydrogen atom on an excited state is having energy E
n
= -0.85eV. The 
maximum number of allowed transitions to lower energy level is 
Solution: 6 
?? ?? = -
13.6
?? 2
= -0.85 
? ?? = 4 
No of transition 
=
?? (?? -1)
2
=
4(4 -1)
2
= 6 
 
Q10 - 2024 (30 Jan Shift 2) 
An electron revolving in n
th 
 Bohr orbit has magnetic moment ?? ?? . If ?? ?? ?? ?? ?? , the value of ?? 
is: 
(1) 2 
(2) 1 
(3) 3 
(4) 0 
Solution: (2) 
Magnetic moment = i?? r
2
 
?? =
 evr 
2
 
?? ?? 
1
?? ?? 2
 
?? ?? ?? 
?? =1 
Q11 - 2024 (31 Jan Shift 1) 
The mass defect in a particular reaction is 0.4g. The amount of energy liberated is 
n×10
7
kWh, where n = 
Solution: 1 
E = ?mc
2
= 0.4×10
-3
× 3×10
8
 
2
= 3600×10
7
kWs
=
3600×10
7
3600
kWh = 1×10
7
kWh
 
 (speed of light = 3×10
8
m/s) 
 
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FAQs on Atoms and Nuclei: JEE Mains Previous Year Questions (2021-2024) - Physics for JEE Main & Advanced

1. What is the difference between atoms and nuclei?
Ans. Atoms are the basic building blocks of matter that consist of a nucleus at the center surrounded by electrons. Nuclei, on the other hand, are the central part of an atom that contains protons and neutrons.
2. How do atoms and nuclei relate to each other in terms of structure and composition?
Ans. Atoms are composed of a nucleus at the center, which is made up of protons and neutrons. The number of protons in the nucleus determines the atomic number of the atom, while the total number of protons and neutrons determines the mass number.
3. What are some common properties of atoms and nuclei that are important to understand in the context of chemistry and physics?
Ans. Some common properties of atoms and nuclei include their stability, isotopes, radioactive decay, and the forces that hold them together (such as electromagnetic and nuclear forces).
4. How are atoms and nuclei studied in the field of nuclear physics and chemistry?
Ans. Scientists use various techniques such as spectroscopy, mass spectrometry, and particle accelerators to study the behavior and characteristics of atoms and nuclei. These studies help in understanding the fundamental properties of matter and the universe.
5. What are some practical applications of the knowledge of atoms and nuclei in everyday life and technology?
Ans. The knowledge of atoms and nuclei is essential for various technologies such as nuclear power generation, medical imaging (such as MRI scans), carbon dating, and nuclear medicine. Understanding these concepts also helps in developing new materials and improving existing technologies.
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