Chemistry — Physical, Inorganic & Organic
1. The Solid State
Types of Solids
- Crystalline: Long-range order. Sharp MP. Anisotropic. Amorphous: No order. Melt over range.
- Unit Cell: Simplest repeating unit. Types: SC, BCC, FCC. Coordination number. Packing efficiency: FCC/CCP = 74%. BCC = 68%. SC = 52%.
Defects
- Point Defects: Vacancy. Interstitial. Frenkel (ion moves to interstitial site — AgCl). Schottky (paired vacancies — NaCl).
2. Solutions
Concentration: Molarity (M). Molality (m). Mole fraction (x). Mass %.
Colligative Properties (depend on NUMBER of solute particles, not identity)
- Relative Lowering of Vapour Pressure: ΔP/P° = x_solute.
- Elevation of Boiling Point: ΔT_b = K_b · m.
- Depression of Freezing Point: ΔT_f = K_f · m.
- Osmotic Pressure: π = CRT = (n/V)RT.
van't Hoff Factor i = Observed / Expected (accounts for association/dissociation).
3. Electrochemistry
Electrochemical Cells
Galvanic (Voltaic) : Spontaneous redox → electricity. Electrolytic: Electricity → non-spontaneous redox.
Standard Hydrogen Electrode (SHE) — Reference. E° = 0 V.
Nernst Equation: E = E° − (RT/nF) ln Q. At 298 K: E = E° − (0.0591/n) log Q.
Conductance: κ (conductivity). Λ_m (molar conductivity). Λ_m decreases with √c (strong electrolytes).
Kohlrausch's Law: Λ_m° = ν₊λ₊° + ν₋λ₋° (additive).
Faraday's Laws of Electrolysis
- m ∝ Q. 2. m₁/m₂ = E₁/E₂ (equivalent masses).
Batteries — Primary (dry cell, mercury cell). Secondary (lead-acid accumulator, Ni-Cd).
4. Chemical Kinetics
Rate of Reaction: −(1/a)d[A]/dt = k[A]ᵐ[B]ⁿ.
Order and Molecularity. Zero order. First order: t₁/₂ = ln2/k (independent of [A]₀).
Arrhenius Equation: k = Ae^(−Eₐ/RT). log k = log A − Eₐ/(2.303RT).
Catalyst — Lowers Eₐ. Does NOT change equilibrium. Provides ALTERNATE PATH.
5. Surface Chemistry
Adsorption vs Absorption. Freundlich isotherm. Langmuir.
Catalysis — Homogeneous and Heterogeneous. Enzyme catalysis.
Colloids — Dispersed phase + Dispersion medium. Tyndall effect. Brownian motion. Electrophoresis.
6. p-Block Elements (Groups 15-18)
- Group 15 (N, P): N₂ is inert (triple bond). NH₃ (Haber Process). HNO₃ (Ostwald Process).
- Group 16 (O, S): O₂ — paramagnetic (MO theory). Ozone. H₂SO₄ (Contact Process).
- Group 17 (Halogens): Reactivity F₂ > Cl₂ > Br₂ > I₂. Interhalogen compounds.
- Group 18 (Noble Gases): Extremely unreactive. Xe forms compounds (XeF₂, XeF₄, XeF₆).
7. d-Block and f-Block Elements
Transition Metals (d-block) — Partially filled d-orbitals.
- Variable oxidation states. Formation of coloured ions (d-d transitions). Catalytic properties. Complex formation.
Lanthanides (4f) and Actinides (5f)
- Lanthanide Contraction: Steady DECREASE in size across the series. Causes Zr and Hf to have almost identical radii.
8. Coordination Compounds
Werner's Theory — Primary valency (oxidation state). Secondary valency (coordination number = 6, 4).
Ligands: Monodentate, bidentate (en), polydentate (EDTA). Chelate effect.
Nomenclature. Isomerism: Ionisation. Linkage. Coordination. Geometrical (cis/trans). Optical.
Crystal Field Theory (CFT) — Octahedral splitting: d orbitals split into t₂g (lower) and eg (higher). Δ₀ = crystal field splitting energy. Strong field (low spin) vs Weak field (high spin).
9. Organic Chemistry — Functional Groups
Haloalkanes and Haloarenes
S_N1 (two-step, carbocation, racemisation — 3°). S_N2 (one-step, inversion — 1°).
Alcohols, Phenols, Ethers. Carbonyl Compounds (Aldehydes & Ketones). Carboxylic Acids. Amines.
Distinguishing Tests (ISC classic):
- Aldehyde vs Ketone: Tollen's test (Ag mirror). Fehling's test (red ppt).
- 1°, 2°, 3° Alcohols: Lucas test (ZnCl₂/HCl).
- 1°, 2°, 3° Amines: Hinsberg test.
Name Reactions (Must Know):
- Aldol Condensation (carbonyl + base → β-hydroxy carbonyl).
- Cannizzaro Reaction (no α-H aldehydes + conc. base → alcohol + acid).
- Clemmensen Reduction (Zn-Hg/HCl: C=O → CH₂).
- Wolff-Kishner (NH₂NH₂/KOH/heat: C=O → CH₂).
- Kolbe's (phenol + CO₂ + NaOH → salicylic acid).
- Reimer-Tiemann (phenol + CHCl₃ + NaOH → salicylaldehyde).
- Sandmeyer and Gattermann.
- Gabriel Phthalimide Synthesis (1° amines).
10. Biomolecules
Carbohydrates — Monosaccharides (glucose, fructose). Disaccharides (sucrose, maltose). Polysaccharides (starch, cellulose).
Proteins — Amino acids (α, NH₂ on same C as COOH). Peptide bond. Primary/secondary/tertiary/quaternary structure.
DNA/RNA — Nucleotides (sugar + base + phosphate). Double helix (Watson and Crick). Base pairing: A=T, G≡C.
11. Polymers and Chemistry in Everyday Life
Polymerisation types: Addition vs Condensation. Examples: Polythene, PVC, Teflon, Nylon-6,6, Bakelite. Drugs, soaps, detergents.
