NCERT Solutions for Class 12 Chemistry Chapter 7 The p-Block Elements

NCERT Solutions for Class 12 Chemistry Chapter 7 – Free PDF Download

*According to the latest CBSE Syllabus 2023-24, this chapter has been removed.

NCERT Solutions Class 12 Chemistry Chapter 7 The p Block Elements is exclusively written for CBSE students of Class 12. These NCERT Solutions for Class 12 Chemistry provide an excellent approach to mastering the subject. Also, these solutions assist you in understanding the concept in-depth by giving P Block Elements Class 12 questions and answers in the textbook, question papers and sample papers.

The P Block Elements of Class 12 Chemistry NCERT Solutions also comprise exemplar questions, exercises, Chemistry HOTS (Higher Order Thinking Skills), and worksheets to help students excel in their board exams. All the solutions are curated by subject experts at BYJU’S following the latest CBSE Syllabus 2023-24 and its marking schemes. Grab the free PDF of this chapter’s NCERT Solutions for Class 12 Chemistry from the link provided below.

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Class 12 Chemistry NCERT Solutions Chapter 7 The p Block Elements – Important Questions

Q 1:Discuss the general characteristics of Group 15 elements with reference to their electronic configuration, oxidation state, atomic size, ionisation enthalpy and electronegativity
Answer
General trends in group 15 elements
(i) Electronic configuration: There are 5 valence electrons for all the elements in group 15.

Q 2: Why does the reactivity of nitrogen differ from phosphorus?
Answer

Nitrogen is chemically less reactive. This is because of the high stability of its molecule,

Q 3: Discuss the trends in chemical reactivity of group 15 elements.
Answer

General trends in chemical properties of group − 15
(i) Reactivity towards hydrogen:
The elements of group 15 react with hydrogen to form hydrides of type

(ii)Reactivity towards oxygen:
The elements of group 15 form two types of oxides:

Q 4: Why does

When compared to phosphorus, nitrogen is highly electronegative. This results in a greater attraction of electrons towards nitrogen in

Q 5: How is nitrogen prepared in the laboratory? Write the chemical equations of the reactions involved
Answer

An aqueous solution of ammonium chloride is treated with sodium nitrite.

NH₄Cl (aq ) + NaNO₂ →N₂(g) + 2H₂O(l) + NaCl(aq)

NO and

Q 6: How is ammonia manufactured industrially?
Answer:
Ammonia is prepared on a large scale by Haber’s process.
N₂(g) + 3H₂(g) ⇌ 2NH₃(g)

The optimum conditions for manufacturing ammonia are:
(i) Pressure (around

Q 7: Illustrate how copper metal can give different products on reaction with HNO₃.

Answer

Concentrated nitric acid is a strong oxidizing agent. It is used for oxidizing most metals. The products of oxidation depend on the temperature, concentration of the acid, and also on the material undergoing oxidation.

3Cu + 8HNO₃( dil.) → 3Cu(NO₃)₂ + 2NO + 4H₂O
Cu + 4HNO₃( conc. )  →Cu(NO₃)₂ + 2NO₂ +2H₂O

 
Q 8: Give the resonating structures of 

5

 Q 9: The HNH angle value is higher than HPH, HAsH and HSbH angles. Why? [Hint: Can be explained on the basis of

Hydride

Q 10: Why does

N (unlike P) lacks the d-orbital. This restricts nitrogen from expanding its coordination number beyond four. Hence,

Q 11: Explain why

Q 12: Nitrogen exists as a diatomic molecule and phosphorus as

Q 13: Write the main differences between the properties of white phosphorus and red phosphorus.
Answer : 

Q 14: Why does nitrogen show catenation properties less than phosphorus?

Answer

Catenation is much more common in phosphorous compounds than in nitrogen compounds. This is because of the relative weakness of the N−N single bond as compared to the P−P single bond. Since the nitrogen atom is smaller, there is greater repulsion of electron density of two nitrogen atoms, thereby weakening the N−N single bond.

Q 15: Give the disproportionation reaction of

On heating, orthophosphorus acid (

Q 16: Can

Q 17: Justify the placement of O, S, Se, Te and Po in the same group of the periodic table in
terms of electronic configuration, oxidation state and hydride formation.
Answer

The elements of group 16 are collectively called chalcogens.
(i) Elements of group 16 have six valence electrons each.
The general electronic configuration of these elements
is

(ii) Oxidation state:
As these elements have six valence electrons (

Q 18: Why is dioxygen a gas but sulphur a solid?
Answer

Oxygen is smaller in size when compared to sulphur. Since its size is small, it can form pπ−pπ bonds and form

Q 19: Knowing the electron gain enthalpy values for O → O ^-1 and O → O ^2- as −141 and

The more the lattice energy of a compound, the more stable it will be. The stability of an ionic compound depends on its lattice energy.

Lattice energy is directly proportional to the charge carried by an ion. When a metal combines with oxygen, the lattice energy of the oxide involving O^2- ion is much more than the oxide involving O^– ion. Hence, the oxide having O^2- ions are more stable than oxides having O^– ion. Hence, we can say that formation of O^2-  is energetically more favourable than the formation of O^–.

Q 20. Which aerosols deplete ozone?

Ans:

The aerosols which are responsible for the depletion of ozone are Freons or chlorofluorocarbons (CFCs).

The molecules of CFCs break down when there is the presence of ultraviolet radiations and form chlorine free radicals, which then combine with ozone to form oxygen.

Q 21. Describe the manufacture of

Ans:

The steps which are required in the production of Sulphuric Acid by the contact process

Step (1)

Sulphide ores or Sulphur are burnt in the air to form

Step (2)

By a reaction with oxygen,

Step (3)

This oleum is then diluted to obtain

In practice, the plant is operated at 2 bar (pressure) and 720 K (temperature). The sulphuric acid thus obtained is 96-98% pure.

Q 22: How is SO₂ an air pollutant?

Soln: The environment is harmed by sulphur dioxide in many ways:

1. Sulphuric acid is formed when it is combined with water vapour present in the atmosphere. This causes acid that damages plants, soil, buildings (those made of marble are more prone), etc.
2. SO₂ causes irritation in the respiratory tract, throat, and eyes and can also affect the larynx to cause breathlessness.
3. The colour of the leaves of the plant gets faded when it is exposed to sulphur dioxide for a long time. This defect is known as chlorosis. The formation of chlorophyll is affected by the presence of sulphur dioxide.

 Q 23: Why are halogens strong oxidising agents?

Soln: Halogens have an electronic configuration of np⁵, where n =2 to 6. Thus, halogens require only one more electron to complete their octet and to attain the stable noble gas configuration. Moreover, halogens have high negative electron gain enthalpies and are highly electronegative with low dissociation energies. As a result, they have a high tendency to gain an electron. Hence, they act as strong oxidising agents.

Q 24: Explain why fluorine forms only one oxoacid, HOF.

Soln: Fluorine has high electronegativity and a small size. Hence it forms only one oxoacid, i.e., HOF.

Q 25: Explain why in spite of nearly the same electronegativity, nitrogen forms hydrogen bonding while chlorine does not.

Ans: Oxygen has a smaller size and due to which a higher electron density per unit volume. Hence, oxygen forms hydrogen bonds while chlorine does not despite having similar electronegative values.

Q 26. Write two uses of ClO₂.
Ans: Applications of ClO₂
( a )Used for purification of water.
( b ) Used for bleaching.

Q 27. Why are halogens coloured?
Ans: Halogens are coloured because they take in radiations from the visible spectrum. This excites the valence electrons to a higher energy level. The amount of energy required for excitation differs from halogen to halogen. Thus, they exhibit different colours.

Q28. Write the reactions of F₂ and Cl₂ with water.
Ans:  ( i ) Cl₂ + H₂O  → HCL + HOCL
( ii ) 2 F₂ + 2H₂O → 4H⁺ + 4F^­- + O₂

Q29. How can you prepare Cl₂ from HCl and HCl from Cl₂? Write reactions only
Ans:

( i ) HCl is prepared from Cl₂ by reacting it with water.
Cl₂ + H₂O → HCL + HOCL

( ii ) Cl₂ is prepared by Deacon’s process from HCL
4HCL + O₂ → 2Cl₂ + 2H₂O

Q30. What inspired N. Bartlett to carry out reaction between Xe and PtF₆?
Ans: N. Barlett observed that PtF₆ and O₂ react to produce a compound O₂⁺[ PtF₆]^–.
As the first ionization enthalpy of Xe( 1170 kJ/mol  ) is very close to that of O₂, he figured that PtF₆ could also oxidize Xe to Xe⁺. Thus, he reacted PtF₆ and Xe to form a red coloured compound   Xe⁺[ PtF₆]^– .

Q31. What are the oxidation states of phosphorus in the following:
( a ) H₃PO₃
( b ) PCl₃
( c ) Ca₃P₂
( d ) Na₃PO₄
( e ) POF₃?

Ans: Let the oxidation state of phosphorous be x
(a) H₃PO₃
3 + x + 3( -2) = 0
x -3 = 0
x =3

(b) PCl₃
x + 3( -1) = 0
x = 3

(c) Ca₃P₂
3( 2 ) + 2 (x) = 0
2x = -6
x = -3

(d) Na₃PO₄
3( 1 ) + x + 4( -2 ) = 0
x -5 =0
x =5

(e)POF₃
x + ( -2 ) + 3( -1) = 0
x -5 = 0
x = 5

Q 32. Write balanced equations for the following:
(i) NaCl is heated with sulphuric acid in the presence of MnO₂.
(ii) Chlorine gas is passed into a solution of NaI in water.

Ans:

(a) 4NaCl + MnO₂ + 4H₂SO₄→ MnCl₂ + 4NaHSO₄ + 2H₂O +Cl₂
(b) Cl₂ + NaI → 2NaCl + I₂

Q33. How are xenon fluorides XeF2, XeF4 and XeF6 obtained?
Ans: XeF₂, XeF₄ and XeF₆are obtained through direction reactions between Xe and F₂. The product depends upon the conditions of the reaction :
Xe       +      F₂→   XeF₂
(excess)

When Xe reacts with F₂ under the condition of 673K and 1 bar XeF₂ is produced.

Xe       +     2F₂→   XeF₄
( 1:5 ratio )

When Xe reacts with F₂ in the ratio of 1:5 under the condition of 873K and 7 bar XeF₄ is produced.
Xe       +      3F₂ →   XeF₆
(1 : 20 ratio)

When Xe reacts with F₂ in the ratio of 1:20 under the condition of 573K and 60-70 bar XeF₆ is produced.

Q34. With what neutral molecule is ClO^– isoelectronic? Is that molecule a Lewis base?
Ans: ClO^– is isoelectronic with ClF.
Total electrons in ClO^–  = 17 + 8 + 1 =26
Total electrons in ClF = 17 + 9 = 26
As ClF accepts electrons from F to form ClF₃ , ClF behaves like a Lewis base.

Q35.  How are XeO₃ and XeOF₄ prepared?
Ans: XeO₃ can be obtained using two methods :
( 1 ) 6XeF₄ + 12H₂O  → 4Xe + 2XeO₃ + 24HF + 3O₂
( 2 ) XeF₆ + 3H₂O  → XeO₃ + 6HF
XeOF₄ is obtained using XeF₆
XeF₆ + H₂O  → XeOF₄ + 2HF

Q36. Arrange the following in the order of property indicated for each set:
(i) F₂, Cl₂, Br₂, I₂ – increasing bond dissociation enthalpy.
(ii) HF, HCl, HBr, HI – increasing acid strength.
(iii) NH₃, PH₃, AsH₃, SbH₃, BiH₃ – increasing base strength.

Ans:

(1) Bond dissociation energy normally lowers on moving down a group because of increase in the atomic size. However, F₂ has a lower bond dissociation energy than Cl₂ and Br₂. This is because the atomic size of fluorine is very small.
Therefore, the increasing order for bond dissociation enthalpy is:
I₂< F₂< Br₂< Cl₂
(2)  Bond dissociation energy of  a H-X molecule ( where X = F, Cl, Br, I ) lowers with an increase in the size of an atom. As H-I bond is the weakest, it will be the strongest acid.
Therefore, the increasing order acidic strength is :
HF <HCl<HBr< HI

(3) BiH₃≤ SbH₃<AsH₃< PH₃< NH₃
On moving from nitrogen to bismuth, the atomic size increases but the electron density of the atom decreases. Hence, the basic strength lowers.

Q37. Which one of the following does not exist?
(i) XeOF₄ (ii) NeF₂ (iii) XeF₂ (iv) XeF₆
Ans: The one that does not exist is NeF₂.

Q38. Give the formula and describe the structure of a noble gas species which is isostructural with:
( a ) ICl₄^–
( b )  IBr₂^–
( c ) BrO₃^–

Ans:

(a) XeF₄ is isoelectronic to ICl₄^– . And it is square planar in geometry :

(b) XeF₂ is isoelectronic with IBr₂^– . It has a linear structure.

(c)XeO₃ is isoelectric and isostructural to BrO₃^–. It has a pyramidal structure.

Q39. Why do noble gases have comparatively large atomic sizes?

Ans:

Noble gases have atomic radii that correspond to van der Waal’s radii, whereas other elements have a covalent radius. Now, by definition, van der Waal’s radii are bigger than covalent radii. This is the reason why noble gases have relatively bigger atomic sizes.

Q40. List the uses of neon and argon gases.
Ans: Uses of Argon gas:
(a) Argon is used to keep an inert atmosphere in high-temperature metallurgical operations like arc welding.
(b) It is used in fluorescent and incandescent lamps where it is required to check the sublimation of the filament, thereby increasing the life of the lamp.
(c) Argon is used in laboratories to handle substances that are air-sensitive.

Uses of neon gas:
(a) Neon is filled in discharge tubes for advertising or decoration.
(b) Neon is used for making beacon lights.
(c) It is used alongside helium to protect electrical equipment against high voltage.

The NCERT Solutions for Class 12 Chemistry Chapter 7 deals with the chemistry of inorganic ring systems of the p-block elements and has a long and venerable history that dates back to the early 19th century. The elements of Groups 13, 14, 15, 16, 17 and 18 are called P block elements. They are represented by the general outer electronic configuration ns²np^1-6. P block elements exist in all three physical states and maybe metals, non-metals or metalloids. Access the NCERT Solutions of this chapter to learn more in detail.