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Short Answer Type Questions

Q.31. Explain the nonlinear shape of H2S and nonplanar shape of PCl3 using valence shell electron pair repulsion theory.
Ans. The Lewis structure of H2S is:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedS-atom is surrounded by four electron pairs (two bonded and two lone pairs). These four electron pairs adopt a tetrahedral arrangement. The presence of two lone pairs brings distortion in the molecule on account of repulsion with bonded pairs of electrons. Thus, the shape of the H2S molecule is V-shaped and not linear.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedThe Lewis structure of PCI3 is:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedP-atom is surrounded by four electron pairs (3 bonded and one lone pair). These four pairs adopt a tetrahedral geometry. Due to the presence of a lone pair, PCl3 has a distorted tetrahedral geometry. Thus, it is pyramidal in shape and not non-planar shape.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.32. Using molecular orbital theory, compare the bond energy and magnetic character of O+2 and O2 species.
Ans. NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The bond energy of O+2 > O-2
Both are paramagnetic due to the presence of unpaired electrons.

Q.33. Explain the shape of BrF5.

Ans. Br-atom has configuration:
1s2, 2s22p6 , 3s23p63d10, 4s24p5
To get pentavalent, two of the p-orbitals are unpaired and electrons are shifted to 4d-orbitals.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
In this excited state, sp3d2-hybridisation occurs, giving octahedral structure. Five positions are occupied by F atoms forming sigma bonds with hybrid bonds and one position occupied by lone pair, i.e., the molecule as a square pyramidal shape.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.34. Structures of molecules of two compounds are given below :
(i) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(ii) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

(a) Which of the two compounds will have intermolecular hydrogen bonding and which compound is expected to show intramolecular hydrogen bonding.
(b) The melting point of a compound depends on, among other things, the extent of hydrogen bonding. On this basis, explain which of the above two compounds will show the higher melting point.
(c) Solubility of compounds in water depends on power to form hydrogen bonds with water. Which of the above compounds will form a hydrogen bond with water easily and be more soluble in it.

Ans. (a) Compound I will form an intramolecular hydrogen bond because NO2 and OH groups are close together whereas it is not so in compound II. Compound II will have intermolecular hydrogen bonding. Bonding is both cases is shown below:
(i)
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(ii)
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(b) As a large number of molecules can be linked together through intermo­lecular hydrogen bonding, compound II will show a higher melting point.
(c) Due to intramolecular hydrogen bonding, compound I will not be able to form hydrogen bonds with H2O molecules. Hence, it will be less soluble in water. However, compound II can form hydrogen bonds with H2O molecules easily, and hence it will be more soluble in water.

Q.35. Why does the type of overlap given in the following figure not result in bond formation?
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedAns. In the first figure, the ++ overlap is equal to +- overlap, and therefore, these cancel out and net overlap is zero.
In the second figure, no overlap is possible because the two orbitals are perpendicular to each other.

Q.36. Explain why PCl5 is trigonal bipyramidal whereas IF5 is square pyramidal.
Ans. 

  • In PCl5 , the electronic configuration of phosphorus is 1s2, 2s2, 2p6, 3s2, 3p3 to form five bonds with chlorine. Electron form s-orbital is excited to the vacant d-orbital due to which phosphorus gains the ability to make 5 bonds.
  • Now, it has a total of five unpaired electrons.
  • So, the hybridization of phosphorus is sp3d and the geometry will be trigonal bipyramidal.
  • Because it has 5 bond pairs and 0 lone pairs.
  • PCl5 – The ground state and the excited state outer electronic configurations of phosphorus (Z = 15) are represented below:
    NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
  • In IF5, according to the electronic configuration of iodine two electrons from 5p-orbital are excited to move to the 5d-orbital.
  • So, now iodine tends to make 5 bonds and along with it have one lone pair.
  • The lone pair will cause the repulsion towards the bond pair and increases the bond angles that’s why it is oriented in such a way that it causes less repulsion.
  • So, the hybridisation will be sp3dand the geometry will be square pyramidal.
  • The structure is:NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Note: The lone pair- lone pair repulsion causes maximum repulsion than lone pair-bond pair and lone pair-bond pair repulsion is more than the bond pair-bond pair repulsion.


Q.37. In both water and dimethyl ether, the oxygen atom is the central atom and has the same hybridization, yet they have different bond angles. Which one has a greater bond angle? Give reason.

Ans. Dimethyl ether has a larger bond angle than water. This is because there is more repulsion between bond pairs of CH3 groups attached in ether than between bond pairs of hydrogen atoms attached to oxygen in the water. The carbon of the CH3 group in ether is attached to three hydrogen atoms through c bonds and electron pairs of these bonds add to the electron charge density on the carbon atom. Hence, the repulsion between the two CH3 groups will be more than that between two H atoms.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.38. Write Lewis structure of the following compounds and show a formal charge on each atom.

HNO3,  NO2,   H2SO4
Ans. Formal charge on an atom in a Lewis structure
= [total number of valence electrons in free atom] – [total number of non-bonding (lone pairs) electrons]—1/2 [total number of bonding or shared electrons]
(i) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
F.C. on O (1) → 6 - 4 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0
F.C. on O (2) → 6 - 4 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0

F.C. on O (3) → 6 - 6 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = -1
F.C. on N → 5 - 0 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced= +1
F.C. on H  → 1 - 0 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced=0
(ii) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
F.C. on O (1) → 6 - 6 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = - 1
F.C. on O (2) → 6 - 4 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0
F.C. on N → 5 - 2 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0
(iii)NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
F.C. on O (1) and (4) → 6 - 4 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced= 0
F.C. on O (2) and (3) → 6 - 4 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0
F.C. on H → 1 - 0 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced= 0
F.C. on H → 6 - 0 - NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced = 0

Q.39. The energy of σ2pz molecular orbital is greater than π2px and π2py molecular orbitals in nitrogen molecules. Write the complete sequence of energy levels in the increasing order of energy in the molecule. Compare the relative stability and the magnetic behavior of the following species :
N2, N+2, N2, N2+2
Ans. The sequence of energy levels
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
For the N2 molecule, the M.O. configuration is:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
B.O. = 1/2(10 - 4) = 3, diamagnetic
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
B.O. = 1/2(9 -4) = 2.5, paramagnetic
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
B.O. = 1/2(10 -5) = 2.5, paramagnetic
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
B.O. = 1/2(8 -4) = 2.5, diamagnetic
Stability order: N2 > N-2 > N+2 > N2+2
(N-2 has more bonding electrons as compared to N+2).

Q.40. What is the effect of the following processes on the bond order in N2 and O2?
(i) N2 → N+2 + e
(ii) O2 → O+2 + e

Ans.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.41. Give reasons for the following:
(i) Covalent bonds are directional bonds while ionic bonds are nondirectional.
(ii) Water molecule has a bent structure, whereas carbon dioxide molecule is linear.
(iii) Ethyne molecule is linear.
Ans. (i) Since the covalent bond depends on the overlapping of orbitals between different orbitals, the geometry of the molecule is different. The orientation of overlap is different. The orientation of overlap is the factor responsible for their directional nature.
(ii) Due to the presence of two lone pairs of electrons on the oxygen atom in H2O, the repulsion between Ip-lp is more. CO2 undergoes sp hybridization resulting in linear shape (O = C = O) while H2O undergoes sp3 hybridization resulting in distorted tetrahedral or bent structure.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced(iii) In the ethyne molecule carbon undergoes sp hybridization with two unhybridized orbitals. One sp hybrid orbital of one carbon atom overlaps axially with sp hybrid orbital of the other carbon atom to form C – C sigma bond while the other hybridized orbital of each carbon atom overlaps axially with S orbitals of hydrogen atoms forming σ bonds. Unhybridized orbitals form π bonds.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.42. What is an ionic bond? With two suitable examples explain the difference between an ionic and a covalent bond?
Ans. An ionic bond is formed as a result of the electrostatic attraction between the positive and negative ions formed by the transfer of electrons from one atom to another.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
A covalent bond is formed by the sharing of electrons between atoms. Examples of covalent bonds:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedMultiple bonds are formed during covalent bonding while in ionic bond a number of bonds can be formed between different atoms.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.43. Arrange the following bonds in order of increasing ionic character giving a reason.
N—H,  F—H,  C—H, and O—H
Ans. Electronegativity difference
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Increasing order of electronegativity difference: C-H < N-H < O-H < F-H
Greater is the difference in electronegativity between two bonded atoms, greater is the ionic character.

Q.44. Explain why CO2–3 ion cannot be represented by a single Lewis structure. How can it be best represented?
Ans. A single Lewis structure of CO2-3  ion cannot explain all the properties of this ion. It can be represented as a resonance hybrid of the following structures:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedIf it were represented only by one structure, there should be two types of bonds, i.e., C = O double bond and C – O single bonds but actually all bonds are found to be identical with the same bond length and same bond strength.

Q.45. Predict the hybridization of each carbon in the molecule of the organic compound given below. Also indicate the total number of sigma and pi bonds in this molecule.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Ans.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNumber of σ Bonds = 11
Number of π Bonds = 4

Q.46. Group the following as linear and non-linear molecules :
H2O, HOCl, BeCl2, Cl2O
Ans.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.47. Elements X, Y, and Z have 4, 5, and 7 valence electrons respectively. 
(i) Write the molecular formula of the compounds formed by these elements individually with hydrogen. 
(ii) Which of these compounds will have the highest dipole moment?
Ans. (i)
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(ii) Z will be the most electronegative element and hence HZ will have the highest dipole moment.

Q.48. Draw the resonating structure of
(i) Ozone molecule
(ii) Nitrate ion
Ans. Resonating structures:
(i) Ozone molecule
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced(ii) Nitrate ion
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Q.49. Predict the shapes of the following molecules on the basis of hybridization.
BCl3, CH4, CO2, NH
3
Ans. BCl3 – sp2 hybridization – Trigonal planar
CH4 – sp3 hybridization – Tetrahedral

CO2 - sp hybridization - Linear
NH3 – sp3 hybridization – Distorted tetrahedral or Pyramidal

Q.50. All the C—O bonds in carbonate ion (CO2–3 ) are equal in length. Explain.
Ans.  Carbonate ion is represented by resonating structures as given below:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedThe actual structure will be the mixture of all resonating structures, also called a resonance hybrid structure.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

As it performs resonance so because of its resonating property, all the bonds have partial double bond character and results into equal bond lengths. Carbonate ion is a symmetric, trigonal planar molecule. All three carbon-oxygen bond distances are about 1.28 Angstroms long.


Q.51. What is meant by the term average bond enthalpy? Why is there a difference in bond enthalpy of O—H bond in ethanol (C2H5OH) and water?
Ans. All the similar bonds in a molecule do not have the same bond enthalpies, e.g., in CHNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advancedthe four C - H bonds do not have the same bond enthalpies because after breaking of the bonds one by one, the electronic environment around carbon changes. Hence, the actual bond enthalpy of the C - H bond is taken as the average value.
O - H bond in ethanol NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advancedand that in water NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanceddo not have a similar electronic environment around oxygen atom. Hence, their O - H bond enthalpies are different.


Q.52. Match the species in Column I with the type of hybrid orbitals in Column II.

NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Ans. (i) → c; (ii) → a; (iii) → e; (iv) → d
(i) SF4 = number of bp (4) + number of lp (1) = sp3d hybridisation
(ii) IF5 = number of bp (5) + number of lp (1) = sp3d2 hybridisation
(iii) NO+= number of bp (2) + number of lp (0) = sp hybridisation
(iv) NH+4 = number of bp (4) + number of Ip (0) = sp3 hybridisation

Q.53. Match the species in Column I with the geometry/shape in Column II.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Ans. (i) → e; (ii) → a; (iii) → b; (iv) → c
(i) H3O+ → (e) Pyramidal
(ii) HC ≡ CH → (a) Linear
(iii) ClO-→ (b) Angular
(iv) NH+4 → (c) Tetrahedral


Q.54. Match the species in Column I with the bond order in Column II.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Ans. (i) → c; (ii) → d; (iii) → a; (iv) → b
NO → B.O. = 1/2(10 - 5) = 2.5
CO → B.O. = 1/2(10 4) = 3
O- B.O. = 1/2(10-7)= 1.5
O→ B.O. = 1/2(10-6) = 2

Q.55. Match the items given in Column I with examples given in Column II.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Ans. (i) → d; (ii) → e; (iii) → b; (iv) → a
(i) H - F : Hydrogen bond
(ii) O3 : Resonance
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced(iii) LiF: Ionic solid
(iv) C: Covalent solid

Q.56. Match the shape of molecules in Column I with the type of hybridization in Column II.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Ans. (i) →c; (ii) → a; (iii) → b
sp3 hybridization – Tetrahedral shape
sp2 hybridization – Trigonal shape
sp hybridization – Linear shapeNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced


Assertion and Reason Type


In the following questions, a statement of Assertion (A) followed by a statement of Reason (R) is given. Choose the correct option out of the choices given below each question.


Q.57. Assertion (A): Sodium chloride formed by the action of chlorine gas on sodium metal is a stable compound.
Reason (R): This is because sodium and chloride ions acquire octet in sodium chloride formation.
(a) A and R both are correct, and R is the correct explanation of A.
(b) A and R both are correct, but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A and R both are false.

Ans. (a)
Solution: Sodium chloride (Na+Cl) is a stable ionic compound because both Na+ and Cl ions have a complete octet in the outermost shell.

Q.58. Assertion (A): Though the central atom of both NH3 and H2O molecules are sp3 hybridized, yet H–N–H bond angle is greater than that of H–O–H.
Reason (R): This is because the nitrogen atom has one lone pair and the oxygen atom has two lone pairs.
(a) A and R both are correct, and R is the correct explanation of A.
(b) A and R both are correct, but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A and R both are false.

Ans. (a)
Solution: 
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
H2O has two lone pairs while NH3 has single lone pair, hence, H2O involves greater lone pair-bond pair repulsion.

Q.59. Assertion (A): Among the two O–H bonds in the H2O molecule, the energy required to break the first O–H bond and the other O–H bond is the same.
Reason (R): This is because the electronic environment around oxygen is the same even after the breakage of one O–H bond.
(a) A and R both are correct, and R is the correct explanation of A.
(b) A and R both are correct, but R is not the correct explanation of A.
(c) A is true but R is false.

(d) A and R both are false.
Ans. (d)
Solution: Bond energy of two (O – H) bonds in H2O will be different.


Long Answer Type Questions

Q.60. (i) Discuss the significance/ applications of dipole moment.
(ii) Represent diagrammatically the bond moments and the resultant dipole moment in CO2, NF3, and CHCl3.
Ans. (i) Dipole moment plays a very important role in understanding the nature of the chemical bonds.
A few applications are given below:
(a) Distinction between, polar and non-polar molecules: The measurement of dipole moment can help us to distinguish between polar and non-polar molecules. Non-polar molecules have zero dipole moment while polar molecules have some value of dipole moment.
(b) Degree of polarity in a molecule: Dipole moment measurement also gives an idea about the degree of polarity, especially in a diatomic molecule. The greater the dipole moment, the greater is the polarity in such a molecule.
(c) Shape of molecules: In the case of molecules containing more than two atoms, the dipole moment not only depends upon the individual dipole moments of the bonds but also on the arrangement of bonds. Thus, the dipole moment is used to find the shapes of molecules.
(d) Ionic character in a molecule: Knowing the electronegativities of atoms involved in a molecule, it is possible to predict the nature of the chemical bond formed. If the difference in electronegativities of two atoms is large, the bond will be highly polar. As an extreme case, when the electron is completely transferred from one atom to another, an ionic bond is formed. Therefore, the ionic bond is regarded as an extreme case of a covalent bond. The greater the difference in electronegativities of the bonded atoms, the higher is the ionic character.
(e) Distinguish between cis- and trans- isomers: Dipole moment measurements help to distinguish between cis- and trans- isomers because ds-isomer usually has a higher dipole moment than trans isomer.
(f) Distinguish between ortho, meta, and para isomers: Dipole moment measurements help to distinguish between o-, m- and p-isomers because the dipole moment of p-isomer is zero and that of o-isomers is more than that of m-isomer.
(ii)
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Q.61. Use the molecular orbital energy level diagram to show that N2 would be expected to have a triple bond, F2, a single bond, and Ne2, no bond.
Ans. Nitrogen molecule (N2): Electron configuration of N-atom (Z = 7) is Is2 2s2 2p1x 2p1y 2p1z

The total number of electrons present in the N2 molecule is 14, 7 from each N-atom. The electron configuration of the N2 molecule will be:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedBond = 1/2 (10 - 4) = 3 (triple bond)
Fluorine molecule (F2): Electronic configuration of F-atom (Z = 9) is 1s2s2 2p2x 2p22p1z. The total number of electrons in the F2 molecule is 18, 9 from each F-atom. Thus, it has two electrons more than O2 molecules. These two additional electrons will enter into π*(2px) and π*(2py) orbitals, one in each of them so that the pairing of electrons takes place in these orbitals. Thus, the electronic configuration of F2 will be:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedBond Order = 1/2 (10 - 8) = 1 (single bond)
Ne2:
Total number of electrons in Ne2 = 20.
The electron configuration of the N2 molecule will be
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNo bond is formed between two Ne atoms or in other words, Ne2 does not exist.
Bond Order = 1/2(10 – 10) = 0 (No bond).

Q.62. Briefly describe the valence bond theory of covalent bond formation by taking an example of hydrogen. How can you interpret energy changes taking place in the formation of dihydrogen?
Ans. The valence bond theory was put forward by Heitler and London in 1927. It was later improved and developed by L. Pauling and J.C. Slater in 1931. The valence bond theory is based on the knowledge of atomic orbitals and electronic configurations of elements, overlap criteria of atomic orbitals, and stability of the molecule.
The main points of valence bond theory are:
(i) Atoms do not lose their identity even after the formation of the molecule.
(ii) The bond is formed due to the interaction of only the valence electrons as the two atoms come close to each other. The inner electrons do not participate in bond formation.
(iii) During the formation of a bond, only the valence electrons from each bonded atom lose their identity. The other electrons remain unaffected.
(iv) The stability of the bond is accounted for by the fact that the formation of the bond is accompanied by the release of energy. The molecule has minimum energy at a certain distance between the atoms known as internuclear distance. The larger the decrease in energy, the stronger will be the bond formed.


Valence bond Treatment of Hydrogen Molecule:
Consider two hydrogen atoms A and B approaching each other having nuclei HA and HB and the corresponding electrons eA and eB respectively.
When atoms come closer to form molecules, new forces begin to operate.
(a) The force of attraction between the nucleus of an atom and the electron of another atom.
(b) The force of repulsion between two nuclei of the atom and electron of two atoms.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedNCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & AdvancedFig. (a) Two hydrogen atoms at a large distance and hence, no interaction.
(b) Two hydrogen atoms closer to each other atomic orbitals begin to interact.
(c) Attractive and repulsive forces in hydrogen atoms when interaction begins.
In the case of hydrogen: Figure ‘a’ shows that two hydrogen atoms are at farthest distances and their electron distribution is absolutely symmetrical.


(a) When two hydrogen atom start coming closer to each other, the electron cloud becomes distorted, and new attractive and repulsive forces begin to operate as shown in figure ‘c.’
(b) In figure ‘c’ dotted lines show attractive forces present in atoms already and bold lines show the new attractive and repulsive forces.
(c) It has been found experimentally that the magnitude of net attractive forces is more than net repulsive forces. Thus stable hydrogen molecule is formed.


Potential energy diagram for the formation of hydrogen molecules:
When two hydrogen atoms are at a farther distance, there is no force operating between them, when they start coming closer to each other, the force of attraction comes into play and their potential energy starts decreasing. As they come closer to each other potential goes on decreasing, but a point is reached when potential energy acquires minimum value.
Note:
(a) 
This distance corresponding to this minimum energy value is called the distance of maximum possible approach, i.e. the point which corresponds to minimum energy and maximum stability.
(b) If atoms come further closer than this distance of maximum possible approach, then potential energy starts increasing and the force of repulsion comes into play and molecules start becoming unstable.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced


Q.63. Describe hybridization in the case of PCl5 and SF6. The axial bonds are longer as compared to equatorial bonds in PCl5 whereas in SF6 both axial bonds and equatorial bonds have the same bond length. Explain.
Ans. Formation of PCI5 (sp3d hybridization): The ground state and the excited state outer electronic configurations of phosphorus (Z = 15) are represented below:NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Trigonal bipyramidal geometry of PCl5 moleculeTrigonal bipyramidal geometry of PCl5 molecule

Three P—Cl bonds lie in one plane and make an angle of 120° with each other; these bonds are termed equatorial bonds. The remaining two P—Cl bonds—one lying above and the other lying below the equatorial plane, make an angle of 900 with the plane. These bonds are called axial bonds

As the axial bond pairs suffer more repulsive interaction than the equatorial bond pairs, therefore axial bonds have been found to be slightly longer and hence slightly weaker than the equatorial bonds; which makes the PCl5 molecule more reactive.
Formation of SF6 (sp3d2 hybridization): Molecule has a regular octahedral geometry.NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Octahedral geometry of SF6 moleculeOctahedral geometry of SF6 molecule
Q.64. (i) Discuss the concept of hybridization. What are its different types of a carbon atom?
(ii) What is the type of hybridization of carbon atoms marked with a star.
(a) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(b) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(c) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(d) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
(e) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Ans. (i) Hybridization: In order to explain the characteristic geometrical shapes of polyatomic molecules like CH4, NH3, and H2O, etc., Pauling introduced the concept of hybridization. According to him, the atomic orbitals combine to form a new set of equivalent orbitals known as hybrid orbitals. 

Unlike pure orbitals, hybrid orbitals are used in bond formation. The phenomenon is known as hybridization, which can be defined as the process of intermixing the orbitals of slightly different energies so as to redistribute their energies, resulting in the formation of a new set of orbitals of equivalent energies and shape.

For example, when one 2s and three 2p-orbitals of carbon hybridize, there is the formation of four new sp3 hybrid orbitals.
The main features of hybridization are as under:
1. The number of hybrid orbitals is equal to the number of atomic orbitals that get hybridized.
2. The hybridized orbitals are always equivalent in energy and shape.
3. The hybrid orbitals are more effective in forming stable bonds than the pure atomic orbitals.
4. These hybrid orbitals are directed in space in some preferred direction to have minimum repulsion between electron pairs and thus a stable arrangement.
Therefore, the type of hybridization indicates the geometry of the molecules.
Different types of hybridization in carbon atom are:

  • In carbon compounds, if carbon is linked to carbon through the triple bond, e.g. Alkynes, triple bonded carbon is sp hybridized.
  • In carbon compounds, if carbon is linked to carbon through a double bond (C=C), e.g., Alkenes, double-bonded carbon is sp2 hybridized.
  • In carbon compounds, if carbon is linked to carbon through a single bond (C—C), e.g., Alkanes, single-bonded carbon is sp3 hybridized.

(a) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Both the starred C atoms are sphybridized.
(b) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The starred C atom is sp3 hybridized.
(c) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The starred C atom is sp2 hybridized.
(d) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The starred C atom is sp3 hybridized.
(e) NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The starred C atom is sp2 hybridized.

Instructions: The comprehension given below is followed by some multiple-choice questions. Each question has one correct option. Choose the correct option.
Molecular orbitals are formed by the overlap of atomic orbitals. Two atomic orbitals combine to form two molecular orbitals called bonding molecular orbital (BMO) and antibonding molecular orbital (ABMO). The energy of the antibonding orbital is raised above the parent atomic orbitals that have combined and the energy of the bonding orbital is lowered than the parent atomic orbitals. Energies of various molecular orbitals for elements hydrogen to nitrogen increase in the order:
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advancedand for oxygen and fluorine order of energy of molecular orbitals is given below :
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Different atomic orbitals of one atom combine with those atomic orbitals of the second atom which have comparable energies and proper orientation. Further, if the overlapping is head-on, the molecular orbital is called ‘Sigma’, (σ)  and if the overlap is lateral, the molecular orbital is called ‘pi’, (π). The molecular orbitals are filled with electrons according to the same rules as followed for filling of atomic orbitals. However, the order for filling is not the same for all molecules or their ions. Bond order is one of the most important parameters to compare the strength of bonds.

Q.65. Which of the following statements is correct?
(a) In the formation of dioxygen from oxygen atoms, 10 molecular orbitals will be formed.
(b) All the molecular orbitals in the dioxygen will be completely filled.
(c) Total number of bonding molecular orbitals will not be the same as the total number of antibonding orbitals in dioxygen.
(d) Number of filled bonding orbitals will be the same as the number of filled antibonding orbitals.

Ans. (a)
Solution: O2 = (8 + 8) = 16.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced

Q.66. Which of the following molecular orbitals has a maximum number of nodal planes?
(a) σ*1 s
(b) σ*2pz
(c) π2px
(d) π*2py
Ans. (b)
Solution: a*2pz has maximum number of nodal planes.

Q.67. Which of the following pair is expected to have the same bond order?
(a) O2, N2
(b) O+2, N2
(c) O2, N+2
(d) O2, N2
Ans. (b) Bond order = (Nb — Na)/2
In O2, the number of electrons in bonding orbitals is 10, and in antibonding are 5.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Bond order = (10-5)/2 =2.5
In N2, the number of electrons in bonding orbitals is 10, and in anti-bonding are 5.
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Bond order = (10- 5) / 2 = 2.5.

Q.68. In which of the following molecules, σ2pz molecular orbital is filled after π2px and π2py  molecular orbitals?
(a) O2
(b) Ne2
(c) N2
(d) F2
Ans. (c)
Solution: 
NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
We have seen that 1s atomic orbitals on two atoms form two molecular orbitals designated as, In the same manner, the 2s and 2p atomic orbitals (eight atomic orbitals on two atoms) give rise to the following eight molecular orbitals.
Antibonding:NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
Bonding: NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
It has been observed experimentally that for molecules such as B2, C2, N2, etc., the increasing order of energies of various molecular orbitals is:NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced
The important characteristic feature of this order is that the energy of NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advancedmolecular orbital is higher than that of NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advancedand molecular orbitals.

The document NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 | Chemistry for JEE Main & Advanced is a part of the JEE Course Chemistry for JEE Main & Advanced.
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FAQs on NCERT Exemplar: Chemical Bonding and Molecular Structure- 2 - Chemistry for JEE Main & Advanced

1. What is the concept of chemical bonding and molecular structure?
Ans. Chemical bonding refers to the process of joining two or more atoms together to form molecules or compounds. It involves the sharing, transfer, or redistribution of electrons between atoms to achieve stability. Molecular structure, on the other hand, refers to the arrangement and spatial orientation of atoms within a molecule. It is determined by the types and number of bonds formed between atoms.
2. What are the different types of chemical bonds?
Ans. There are three main types of chemical bonds: covalent bonds, ionic bonds, and metallic bonds. - Covalent bonds involve the sharing of electrons between atoms. They are typically formed between nonmetals and result in the formation of molecules. - Ionic bonds involve the transfer of electrons from one atom to another. They are typically formed between metals and nonmetals, resulting in the formation of ionic compounds. - Metallic bonds occur between metal atoms and involve the delocalization of electrons within a lattice structure. This type of bonding is responsible for the unique properties of metals, such as conductivity and malleability.
3. How is the Lewis dot structure used to represent chemical bonding?
Ans. The Lewis dot structure is a simple way to represent the valence electrons of atoms involved in a chemical bond. In this structure, the symbol of the element is surrounded by dots, each representing one valence electron. The dots are placed around the symbol based on the number of valence electrons the atom possesses. By representing the valence electrons, the Lewis dot structure helps in understanding how atoms bond and form molecules.
4. What is the VSEPR theory and how does it determine the molecular shape?
Ans. The VSEPR (Valence Shell Electron Pair Repulsion) theory states that electron pairs in the valence shell of an atom repel each other and try to get as far away from each other as possible. This theory helps in determining the shape of a molecule by considering the arrangement of electron pairs around the central atom. According to the VSEPR theory, the electron pairs (both bonding and non-bonding) arrange themselves in a way that minimizes repulsion. This results in different molecular geometries, such as linear, trigonal planar, tetrahedral, trigonal bipyramidal, and octahedral. The shape of the molecule affects its physical and chemical properties.
5. How do intermolecular forces affect the properties of substances?
Ans. Intermolecular forces are the attractive forces between molecules. These forces play a crucial role in determining the physical properties of substances, such as boiling point, melting point, solubility, and viscosity. - London dispersion forces: These forces are present in all molecules and result from temporary fluctuations in electron distribution. They increase with the size of the molecule and affect properties like boiling point and viscosity. - Dipole-dipole forces: These forces occur between polar molecules and arise due to the attraction between the positive end of one molecule and the negative end of another. They affect properties like boiling point and solubility. - Hydrogen bonding: It is a special type of dipole-dipole interaction that occurs when a hydrogen atom is bonded to a highly electronegative atom (such as oxygen, nitrogen, or fluorine). Hydrogen bonding is responsible for many unique properties of water and other compounds. The strength of intermolecular forces determines the energy required to break the attractive forces between molecules, thereby affecting the physical properties of substances.
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