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Published byDylan Floyd Modified over 9 years ago
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Covalent bonding in Methane: CH 4 Carbon: 1S 2 2S 2 2P 2 Energy is released as carbon forms covalent bonds and the more energy released the more stable the molecule. If the 2S electron is promoted to 2P then 4 unpaired electrons can be used in bonding:
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In methane, all four C-H bonds are identical, so the electrons in the S and P orbitals rearrange themselves in a process called hybridization hybridization The SP 3 orbitals are tetrahedral in shape to avoid electron repulsion between orbitals and this defines the shape of CH 4 where it can bond with 4 hydrogen atoms. Bond angle 109 o
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In ethane, C 2 H 6 there are 4 SP 3 orbitals for each carbon atom available for bonding; Three between C and H and the remaining one between C and C forming a sigma (s) bond:
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Ethene, CH 2 CH 2 has a different bonding structure: Three of the 2S and 2P electrons are hydridized this time, to leave a 2P orbital. Then three SP 2 hybrids form: Before C=C bonding Bonds forming (molecular orbitals)
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