Carbon Compounds, - Lecture 1 | Class 10 Ssc | Co...

A hard, three-dimensional tetrahedral structure where every carbon is bonded to four others; it is a non-conductor.

A soft, layered hexagonal structure where each carbon is bonded to three others; it is an excellent conductor of electricity.

2, 4 (2 electrons in the K shell, 4 in the L shell). Valence Electrons: 4. 2. Covalent Bonding in Carbon CARBON COMPOUNDS, Lecture 1 | Class 10 SSC | Co...

Carbon achieves stability by forming , which involve the sharing of electron pairs between atoms rather than gaining or losing them. Why Carbon Doesn't Form Ionic Bonds: Cannot form C4−cap C raised to the 4 minus power

Carbon is a non-metallic element that serves as the "king of all elements" because it forms the basis of all known life and millions of synthetic materials. 6. Atomic Mass: 12 U. Valence Electrons: 4

The immense number of carbon compounds (over 3 million) is due to two unique properties:

Carbon exists in different physical forms known as allotropes, which have different structures but the same chemical identity: Why Carbon Doesn't Form Ionic Bonds: Cannot form

Carbon compounds exhibit distinct physical properties that differentiate them from ionic compounds: