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Structure of Atom Practice Questions - DPP for NEET

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1. (c) The species CO, NO
+
, CN
–
 and C
2
? 2–
 contain 14 electrons each.
2. (d) NaCl : No. of e
– 
in Na
+
= At. No. of Na–1
= 11 – 1 = 10
No. e
–
 in Cl
–
= At. No. of Cl + 1
= 17 + 1 = 18
CsF  : No. of e
–
 in Cs
+
= 55 – 1 = 54
No. of e
–
 in F
–
= 9 + 1 = 10
NaI : No. of e
–
 in Na
+
= 11 – 1 = 10
No. of e
–
 in I
–
= 53 + 1 = 54
K
2
S : No. of e
–
 in K
+
= 19 – 1 = 18
No. of e
–
 in S
2–
= 16 + 2 = 18
3. (a) For He
+
,
For H,
For same frequency,
= 
?
? n
1
 = 1 & n
2
 = 2
4. (c) Series limit is the last line of the series, i.e. n
2
 = 8.
Page 2


1. (c) The species CO, NO
+
, CN
–
 and C
2
? 2–
 contain 14 electrons each.
2. (d) NaCl : No. of e
– 
in Na
+
= At. No. of Na–1
= 11 – 1 = 10
No. e
–
 in Cl
–
= At. No. of Cl + 1
= 17 + 1 = 18
CsF  : No. of e
–
 in Cs
+
= 55 – 1 = 54
No. of e
–
 in F
–
= 9 + 1 = 10
NaI : No. of e
–
 in Na
+
= 11 – 1 = 10
No. of e
–
 in I
–
= 53 + 1 = 54
K
2
S : No. of e
–
 in K
+
= 19 – 1 = 18
No. of e
–
 in S
2–
= 16 + 2 = 18
3. (a) For He
+
,
For H,
For same frequency,
= 
?
? n
1
 = 1 & n
2
 = 2
4. (c) Series limit is the last line of the series, i.e. n
2
 = 8.
  The line belongs to Paschen series.
5. (d) de Broglie wavelength, 
KE 
6. (c) Fe (III) = [Ar] unpaired electrons = 5;
Magnetic moment = ;
Ratio = 
Co(II) = [Ar] unpaired electrons = 3;
Magnetic moment =
Ratio = 
7. (b)
Page 3


1. (c) The species CO, NO
+
, CN
–
 and C
2
? 2–
 contain 14 electrons each.
2. (d) NaCl : No. of e
– 
in Na
+
= At. No. of Na–1
= 11 – 1 = 10
No. e
–
 in Cl
–
= At. No. of Cl + 1
= 17 + 1 = 18
CsF  : No. of e
–
 in Cs
+
= 55 – 1 = 54
No. of e
–
 in F
–
= 9 + 1 = 10
NaI : No. of e
–
 in Na
+
= 11 – 1 = 10
No. of e
–
 in I
–
= 53 + 1 = 54
K
2
S : No. of e
–
 in K
+
= 19 – 1 = 18
No. of e
–
 in S
2–
= 16 + 2 = 18
3. (a) For He
+
,
For H,
For same frequency,
= 
?
? n
1
 = 1 & n
2
 = 2
4. (c) Series limit is the last line of the series, i.e. n
2
 = 8.
  The line belongs to Paschen series.
5. (d) de Broglie wavelength, 
KE 
6. (c) Fe (III) = [Ar] unpaired electrons = 5;
Magnetic moment = ;
Ratio = 
Co(II) = [Ar] unpaired electrons = 3;
Magnetic moment =
Ratio = 
7. (b)
8. (d) 
Hence, 
9. (a) We know 
since ?p = ?x (given)
? 
or m?v    [ ? ?p= m?v]
or 
or 
10. (b) I. E = ...(i)
or ...(ii)
Given I
1
 = – 19.6 × 10
–18
 , Z
1
 = 2,
n
1
 = 1 , Z
2
 = 3 and n
2
 = 1
Substituting these values in equation (ii).
– 
or 
= – 4.41 × 10
–17
 J/atom
11. (c) As per Bohr’s postulate,
mvr = 
Page 4


1. (c) The species CO, NO
+
, CN
–
 and C
2
? 2–
 contain 14 electrons each.
2. (d) NaCl : No. of e
– 
in Na
+
= At. No. of Na–1
= 11 – 1 = 10
No. e
–
 in Cl
–
= At. No. of Cl + 1
= 17 + 1 = 18
CsF  : No. of e
–
 in Cs
+
= 55 – 1 = 54
No. of e
–
 in F
–
= 9 + 1 = 10
NaI : No. of e
–
 in Na
+
= 11 – 1 = 10
No. of e
–
 in I
–
= 53 + 1 = 54
K
2
S : No. of e
–
 in K
+
= 19 – 1 = 18
No. of e
–
 in S
2–
= 16 + 2 = 18
3. (a) For He
+
,
For H,
For same frequency,
= 
?
? n
1
 = 1 & n
2
 = 2
4. (c) Series limit is the last line of the series, i.e. n
2
 = 8.
  The line belongs to Paschen series.
5. (d) de Broglie wavelength, 
KE 
6. (c) Fe (III) = [Ar] unpaired electrons = 5;
Magnetic moment = ;
Ratio = 
Co(II) = [Ar] unpaired electrons = 3;
Magnetic moment =
Ratio = 
7. (b)
8. (d) 
Hence, 
9. (a) We know 
since ?p = ?x (given)
? 
or m?v    [ ? ?p= m?v]
or 
or 
10. (b) I. E = ...(i)
or ...(ii)
Given I
1
 = – 19.6 × 10
–18
 , Z
1
 = 2,
n
1
 = 1 , Z
2
 = 3 and n
2
 = 1
Substituting these values in equation (ii).
– 
or 
= – 4.41 × 10
–17
 J/atom
11. (c) As per Bohr’s postulate,
mvr = 
So, 
KE = 
So,  KE = 
Since, 
So, for 2
nd
 Bohr orbit
KE = 
KE = 
12. (c) Not more than two electrons can be present in same atomic orbital.
This is Pauli's exclusion principle.
13. (a) 2
nd
 excited state will be the 3
rd
 energy level.
 or  
14. (a)
In Balmer series n
1
 = 2 & n
2
 = 3, 4, 5.... Last line of the spectrum is
called series limit.
Limiting line is the line of shortest wavelength and high energy when n
2
= 8
 
15. (c) r
n
 = a
0
n
2
Page 5


1. (c) The species CO, NO
+
, CN
–
 and C
2
? 2–
 contain 14 electrons each.
2. (d) NaCl : No. of e
– 
in Na
+
= At. No. of Na–1
= 11 – 1 = 10
No. e
–
 in Cl
–
= At. No. of Cl + 1
= 17 + 1 = 18
CsF  : No. of e
–
 in Cs
+
= 55 – 1 = 54
No. of e
–
 in F
–
= 9 + 1 = 10
NaI : No. of e
–
 in Na
+
= 11 – 1 = 10
No. of e
–
 in I
–
= 53 + 1 = 54
K
2
S : No. of e
–
 in K
+
= 19 – 1 = 18
No. of e
–
 in S
2–
= 16 + 2 = 18
3. (a) For He
+
,
For H,
For same frequency,
= 
?
? n
1
 = 1 & n
2
 = 2
4. (c) Series limit is the last line of the series, i.e. n
2
 = 8.
  The line belongs to Paschen series.
5. (d) de Broglie wavelength, 
KE 
6. (c) Fe (III) = [Ar] unpaired electrons = 5;
Magnetic moment = ;
Ratio = 
Co(II) = [Ar] unpaired electrons = 3;
Magnetic moment =
Ratio = 
7. (b)
8. (d) 
Hence, 
9. (a) We know 
since ?p = ?x (given)
? 
or m?v    [ ? ?p= m?v]
or 
or 
10. (b) I. E = ...(i)
or ...(ii)
Given I
1
 = – 19.6 × 10
–18
 , Z
1
 = 2,
n
1
 = 1 , Z
2
 = 3 and n
2
 = 1
Substituting these values in equation (ii).
– 
or 
= – 4.41 × 10
–17
 J/atom
11. (c) As per Bohr’s postulate,
mvr = 
So, 
KE = 
So,  KE = 
Since, 
So, for 2
nd
 Bohr orbit
KE = 
KE = 
12. (c) Not more than two electrons can be present in same atomic orbital.
This is Pauli's exclusion principle.
13. (a) 2
nd
 excited state will be the 3
rd
 energy level.
 or  
14. (a)
In Balmer series n
1
 = 2 & n
2
 = 3, 4, 5.... Last line of the spectrum is
called series limit.
Limiting line is the line of shortest wavelength and high energy when n
2
= 8
 
15. (c) r
n
 = a
0
n
2
r = a
0
 × (3)
2
 = 9a
0
 
16. (c) l = 2 represent d orbital for which
17. (b) de – Broglie wavelength is given by :
... (i)
K.E. 
Substituting this in equation (i)
...(i)
i.e. 
? when KE become 4 times wavelength become 1/2.
18. (a) The electronic configuration of Rubidium (Rb = 37) is
Since last electron enters in 5s orbital
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FAQs on Structure of Atom Practice Questions - DPP for NEET

1. What is the structure of an atom?
Ans. The structure of an atom consists of a nucleus at the center, which contains protons and neutrons. Electrons revolve around the nucleus in specific energy levels or shells.
2. How are protons and neutrons different from electrons?
Ans. Protons and neutrons are found in the nucleus of an atom and have a positive and neutral charge, respectively. Electrons, on the other hand, orbit around the nucleus and have a negative charge.
3. What is the atomic number of an atom?
Ans. The atomic number of an atom is the number of protons present in its nucleus. It determines the element's identity and is represented by the symbol "Z" in the periodic table.
4. How do electrons occupy different energy levels in an atom?
Ans. Electrons occupy different energy levels or shells in an atom based on their energy. The first shell can hold a maximum of 2 electrons, while the second and third shells can hold up to 8 electrons each.
5. What is an isotope of an atom?
Ans. Isotopes are atoms of the same element that have the same number of protons but differ in the number of neutrons. This results in different atomic masses for isotopes of the same element.
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