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Class 11 Chemistry
Chapter 4 Solutions — Chemical Bonding and Molecular Structure
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Step-by-step NCERT solutions for Chemical Bonding and Molecular Structure (Chapter 4, NCERT Class 11 Chemistry) — every question and answer worked out in full, not just the final result. You can also read the Chemical Bonding and Molecular Structure textbook chapter.
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What these solutions cover
All 40 questions in Chemical Bonding and Molecular Structure are solved in the PDF. Here's what's inside, exercise by exercise:
Exercises
- Explain the formation of a chemical bond.
- Write Lewis dot symbols for atoms of the following elements: Mg, Na, B, O, N, Br.
- Write Lewis symbols for the following atoms and ions: S and S^2-; Al and Al^3+; H and H^-
- Draw the Lewis structures for the following molecules and ions: H2S, SiCl4, BeF2, CO3^2-, HCOOH
- Define octet rule. Write its significance and limitations.
- Write the favourable factors for the formation of ionic bond.
- Discuss the shape of the following molecules using the VSEPR model: BeCl2, BCl3, SiCl4, AsF5, H2S, PH3
- Although geometries of NH3 and H2O molecules are distorted tetrahedral, bond angle in water is less than that of ammonia. Discuss.
- How do you express the bond strength in terms of bond order?
- Define the bond length.
- Explain the important aspects of resonance with reference to the CO3^2- ion.
- H3PO3 can be represented by structures 1 and 2 shown below. Can these two structures be taken as the canonical forms of the resonance hybrid representing H3PO3? If not, give reasons for the same.
- Write the resonance structures for SO3, NO2 and NO3^-.
- Use Lewis symbols to show electron transfer between the following atoms to form cations and anions:
- (a) K and S
- (b) Ca and O
- (c) Al and N.
- Although both CO2 and H2O are triatomic molecules, the shape of H2O molecule is bent while that of CO2 is linear. Explain this on the basis of dipole moment.
- Write the significance/applications of dipole moment.
- Define electronegativity. How does it differ from electron gain enthalpy?
- Explain with the help of a suitable example polar covalent bond.
- Arrange the bonds in order of increasing ionic character in the molecules: LiF, K2O, N2, SO2 and ClF3.
- The skeletal structure of CH3COOH as shown below is correct, but some of the bonds are shown incorrectly. Write the correct Lewis structure for acetic acid.
- Apart from tetrahedral geometry, another possible geometry for CH4 is square planar with the four H atoms at the corners of the square and the C atom at its centre. Explain why CH4 is not square planar.
- Explain why BeH2 molecule has a zero dipole moment although the Be-H bonds are polar.
- Which out of NH3 and NF3 has higher dipole moment and why?
- What is meant by hybridisation of atomic orbitals? Describe the shapes of sp, sp^2, sp^3 hybrid orbitals.
- Describe the change in hybridisation (if any) of the Al atom in the following reaction: AlCl3 + Cl^- -> AlCl4^-
- Is there any change in the hybridisation of B and N atoms as a result of the following reaction? BF3 + NH3 -> F3B-NH3
- Draw diagrams showing the formation of a double bond and a triple bond between carbon atoms in C2H4 and C2H2 molecules.
- What is the total number of sigma and pi bonds in the following molecules?
- (a) C2H2
- (b) C2H4
- Considering x-axis as the internuclear axis which out of the following will not form a sigma bond and why?
- (a) 1s and 1s
- (b) 1s and 2px;
- (c) 2py and 2py
- (d) 1s and 2s.
- Which hybrid orbitals are used by carbon atoms in the following molecules?
- (a) CH3-CH3;
- (b) CH3-CH=CH2;
- (c) CH3-CH2-OH;
- (d) CH3-CHO
- (e) CH3COOH
- What do you understand by bond pairs and lone pairs of electrons? Illustrate by giving one example of each type.
- Distinguish between a sigma and a pi bond.
- Explain the formation of H2 molecule on the basis of valence bond theory.
- Write the important conditions required for the linear combination of atomic orbitals to form molecular orbitals.
- Use molecular orbital theory to explain why the Be2 molecule does not exist.
- Compare the relative stability of the following species and indicate their magnetic properties: O2^+, O2, O2^- (superoxide), O2^2- (peroxide)
- Write the significance of a plus and a minus sign shown in representing the orbitals.
- Describe the hybridisation in case of PCl5. Why are the axial bonds longer as compared to equatorial bonds?
- Define hydrogen bond. Is it weaker or stronger than the van der Waals forces?
- What is meant by the term bond order? Calculate the bond order of: N2, O2, O2^+ and O2^-.
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