Class 10 Science Ch 4 Carbon and its Compounds

• Carbon is a versatile element that forms the basis of all living structures.
• Earth’s Crust has 0.02% carbon (minerals); Atmosphere has 0.03% $CO_2$.
• कार्बन एक सर्वतोमुखी तत्व है जो सभी जीवित संरचनाओं का आधार है।

• Carbon (Atomic No. 6) has configuration 2, 4.
• It needs 4 more electrons to attain noble gas configuration.
• Why not $C^{4+}$ or $C^{4-}$?
  (i) $C^{4-}$: Difficult for 6 protons to hold 10 electrons.
  (ii) $C^{4+}$: Requires huge energy to remove 4 electrons.
• Solution: Sharing Electrons (Covalent Bond).

• Same chemical properties, different physical structures.
• Diamond: Rigid 3D structure. Each C bonded to 4 others. Hardest substance.
• Graphite: Hexagonal arrays in layers. Each C bonded to 3 others. Good Conductor of electricity!
• Fullerenes: C-60 Buckminsterfullerene (Football shape).

• Catenation (श्रृंखलन): Unique ability to form long chains/rings with other C-atoms. Strong & Stable bonds.
• Tetravalency: Valency of 4 allows bonding with Oxygen, Hydrogen, Nitrogen, Sulphur, etc.
• कार्बन में ‘श्रृंखलन’ का गुण होता है जिससे यह लंबी श्रृंखलाएँ बना सकता है।

• Saturated (संतृप्त): Only Single bonds between C-atoms. (Alkanes). Less reactive.
• Unsaturated (असंतृप्त): Double or Triple bonds. (Alkenes/Alkynes). More reactive.

• Carbon atoms can form straight chains, branched chains, or cyclic rings.
• Structural Isomers: Same molecular formula, different structures.
  Ex: Butane ($C_4H_{10}$) has 2 isomers (Straight & Iso-butane).

• Series of compounds where the same functional group substitutes for hydrogen.
• Successive members differ by $-CH_2-$ unit.
• Mass difference = 14 u.
• Properties: Chemical properties are similar; Physical properties (MP/BP) show a gradation as mass increases.

IUPAC पद्धति के अनुसार नामकरण के चरण:

• 1. Count C-atoms: 1 (Meth), 2 (Eth), 3 (Prop), 4 (But)…
• 2. Identify Functional Group suffix/prefix.
• 3. Modify “ane” $\to$ “ol”, “al”, “oic acid” etc. (Delete ‘e’ if suffix starts with vowel).

• Combustion: All carbon compounds burn in $O_2$ to give $CO_2$, heat, and light.
  Saturated $\to$ Clean blue flame. Unsaturated $\to$ Sooty yellow flame.
• Oxidation: Alcohol $\xrightarrow{alk. KMnO_4}$ Carboxylic Acid.
• Addition Reaction: Hydrogenation of vegetable oils (Unsaturated $\to$ Saturated) using Nickel catalyst. Oils are healthier than fats.
• Substitution: In Alkanes, $Cl$ replaces $H$ in presence of Sunlight.

• Liquid at room temp. Active ingredient of alcoholic drinks.
• Reaction with Na $\to$ Sodium Ethoxide + $H_2 \uparrow$
• Dehydration: Ethanol $\xrightarrow{conc. H_2SO_4}$ Ethene.
• Denatured Alcohol: Ethanol mixed with poisonous methanol + blue dye to prevent drinking.

• Commonly called Acetic Acid. 5-8% solution = Vinegar.
• Esterification: Acid + Alcohol $\xrightarrow{Acid}$ Ester (Sweet smelling).
• Saponification: Ester + NaOH $\to$ Alcohol + Soap.

• Soap: Na/K salts of long chain carboxylic acids.
• Structure: Hydrophilic head (Ionic) & Hydrophobic tail (Hydrocarbon).
• Micelle Formation: Clusters where tails point inside (towards oil) and heads point outside.