The p-Block Elements.

Q 1.

Describe two similarities and two dissimilarities between B and Al.

Q 2.

A certain salt X, gives the following results.
(i) Its aqueous solution is alkaline to litmus.
(ii) It swells up to a glassy material Y on strong heating.
(iii) When cone.H₂SO₄is added to a hot solution of X, white crystal of an acid Z separates out.

Q 3.

Boric acid is an acid because its molecule
(a) contains replaceable H⁺   ion
(b) gives up a proton.
(c)accepts OH^–from water releasing proton.
(d) combines with proton from water molecule.

Q 4.

What is the basic building unit of all silicates?

Q 5.

Explain the nature of boric acid as a Lewis acid in water.

Q 6.

• Rationalise the given statements and give chemical reactions:
• Lead (II) chloride reacts with Cl₂   to give PbCl₄  .
• Lead (IV) chloride is highly unstable towards heat.
• Lead is known not to form an iodide Pbl₄.

Q 7.

Which of the following statements are correct?
(a) Fullerenes have dangling bonds.
(b) Fullerenes are cage-like molecules.
(c) Graphite is thermodynamically most stable allotrope of carbon.
(d) Graphite is slippery and hard and therefore used as a dry lubricant in

Q 8.

How is excessive content of C0₂ responsible for global warming?

Q 9.

Elements of group 14
(a) exhibit oxidation state of +4 only (b) exhibit oxidation state of +2 and +4
(c) form  M^2-and M⁴⁺ ion (d) form M²⁺ and M⁴⁺ ions.

Q 10.

(a) What is general formula of silicons?
(b) How are linear silicons obtained?

Q 11.

The reason for small radius of Ga compared to Al is_________ .
(a) poor screening effect of d and f orbitals
(b) increase in nuclear charge
(c) presence of higher orbitals
(d) higher atomic number

Q 12.

Give the chemical reactions as an evidence for each of the following observations.
(i) Tin (II) is a reducing agent whereas lead (II) is not.
(ii) Gallium (I) undergoes disproportionation reaction.

Q 13.

Why does borontrifluori.de behave as a Lewis acid?

Q 14.

What are Fullerenes ? How are they prepared ?

Q 15.

Ionisation enthalpy (∆ _tH₁ kJ mol^-1) for the elements of Group 13 follows the order.
(a) B > A1 > Ga > In > T1
(b) B < A1 < Ga< In (c) B < A1 > Ga < In < T1                                        
(d) B > A1 < Ga > In < T1

Q 16.

In the structure of diborane
(a) all hydrogen atoms lie in one plane and boron atoms lie in a plane perpendicular to this plane.
(b) 2 boron atoms and 4 terminal hydrogen atoms lie in the same plane and 2 bridging hydrogen atoms lie in the perpendicular plane.
(c) 4 bridging hydrogen atoms and boron atoms lie in one plane and two terminal hydrogen atoms lie in a plane perpendicular to this plane.
(d) all the atoms are in the same plane.

Q 17.

Why does boron form stable electron deficient compounds?

Q 18.

Match the species given in Column I with the hybridisation given in Column II.

Q 19.

Is boric acid a protonic acid? Explain.

Q 20.

Thermodynamically the most stable form of carbon is
(a)diamond (b) graphite (c) fullerenes (d) coal

Q 21.

Describe the shapes of BF₃ and BH₄^–. Assign the hybridisation of boron in these species.

Q 22.

Boric acid is polymeric due to
(a) its acidic nature (b) the presence of hydrogen bonds
(c) its monobasic nature (d) its geometry

Q 23.

Give one method for industrial preparation and one for laboratory preparation of CO and C0₂ each.

Q 24.

Mention the state of hybridisation of B in BH₄.

Q 25.

Match the species given in Column I with the properties mentioned in Column II.

Q 26.

Discuss the pattern of variation in the oxidation states of
(i) B to Tl (ii) C to Pb.

Q 27.

How can you explain higher stability of BCl3 as compared to TlCl₃?

Q 28.

If B-Cl bond has a dipole moment, explain why BCl₃ molecule has zero dipole moment.

Q 29.

Aluminium trifluoride is insoluble in anhydrous HF but dissolves on addition of NaF. Aluminium trifluoride precipitates out of the resulting solution when gaseous BF₃ is bubbled through. Give reason.

Q 30.

Why is boron used in nuclear reactions?

Q 31.

What is dry ice? Why is it so called?

Q 32.

Which oxide of carbon is regarded as anhydride of carbonic acid?

Q 33.

CO₂ is gas while SiO₂ is solid at room temperature. Give reason.

Q 34.

Give the chemical reaction as an evidence for each of the following observations.
(i) Tin (II) is a reducing agent whereas lead (II) is not.
(ii) Gallium (I) undergoes disproportionation reaction.

Q 35.

The linear shape of C0₂ is due to  ______ .
(a) sp³ hybridisation of carbon
(b) sp hybridisation of carbon
(c) pπ-pπ bonding between carbon and oxygen
(d) sp² hybridisation of carbon

Q 36.

Give reasons for the following:
(a) CCl₄ is immiscible in water, whereas SiCl₄ is easily hydrolysed.
(b) Carbon has a strong tendency for catenation compared to silicon.

Q 37.

Aluminium dissolves in mineral acids and aqueous alkalies and thus shows amphoteric character, A piece of aluminium foil is treated with dilute hydrochloric acid or dilute sodium hydroxide solution in a test tube and on bringing a burning matchstick near the mouth of the test tube, a pop sound indicates the evolution of hydrogen gas. The same activity when performed with concentrated nitric acid, reaction doesn't proceed. Explain the reason.

Q 38.

Consider the compounds, BCl₃ and CCl₄. How will they’behave with water justify?

Q 39.

Write reactions to justify amphoteric nature of aluminium.

Q 40.

Write the resonance structure of CO₃^2- and HCO₃^–  .

Q 41.

What is the state of hybridisation of carbon in
(a) CO₃^2- (b) diamond (c) graphite?

Q 42.

Suggest reason why the B-F bond lengths in BF₃ (130 pm) and BF^– (143 pm) differ.

Q 43.

Explain why is there a phenomenal decrease in ionization enthalpy from carbon to silicon.

Q 44.

How is boron obtained from borax? Give chemical equations with reaction conditions.

Q 45.

The geometry of a complex species can be understood from the knowledge of type of hybridisation of orbitals of central atom. The hybridisation of orbitals of central atom in [B(OH)₄]- and the geometry of the complex are respectively
(a) sp³, tetrahedral
(b) sp³, square planar                                                    
(c) sp³d², octahedral                                                            
(d) dsp², square planar

Q 46.

Me₃SiCl is used during polymerisation of organo silicones because
(a) the chain length of organo silicone polymers can be controlled by adding Me₃
(b) Me₃SiCl blocks the end terminal of silicone polymer.
(c) Me₃SiCl improves the quality and yield of the polymer. –
(d) Me₃SiCl acts as a catalyst during polymerization.

Q 47.

Explain the following:
(i) C0₂ is a gas whereas Si0₂ is a solid.
(b) Silicon forms SiF₆^2- ion whereas corresponding fluoro compound of carbon is not known.

Q 48.

Carbon and silicon both belong to the group 14, but in spite of the stoichiometric similarity, the dioxides (i.e., carbon dioxide and silicon dioxide) differ in their structures. Comment.

Q 49.

Assertion (A): Silicones are water repelling in nature.
Reason (R): Silicones are organosilicon polymers, which have (-R₂SiO-) as repeating unit.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) Both A and R are not correct. ‘
(d) A is not correct but R is correct.

Q 50.

Give reasons:
(i) Cone. HNO₃ can be transported in aluminium container.
(ii) A mixture of dilute NaOH and aluminium pieces is used to open drain.
(iii) Graphite is used as lubricant.
(iv) Diamond is used as an abrasive.
(v) Aluminium alloys are used to make aircraft body.
(vi) Aluminium utensils should not be kept in water overnight.
(vii) Aluminium wire is used to make transmission cables.