Presentation is loading. Please wait.

Presentation is loading. Please wait.

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.

Published byDylan Floyd Modified over 9 years ago

Similar presentations

Presentation on theme: "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."— Presentation transcript:

1 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:

2 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

3 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:

4 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)

5

Download ppt "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."

Similar presentations

Word Splash – Write a few sentences about how the following terms are related.

Word Splash – Write a few sentences about how the following terms are related.
Hybridization - The Blending of Orbitals Poodle + +Cocker Spaniel = = = = + +s orbitalp orbital Cockapoo sp orbital.

Hybridization - The Blending of Orbitals Poodle + +Cocker Spaniel = = = = + +s orbitalp orbital Cockapoo sp orbital.
Hybridization - The Blending of Orbitals

Hybridization - The Blending of Orbitals
Methane has 4 C-H sigma bonds. Four bonds of equal length. Bond vector separated by 109.5°. This angle also happens to be the angle that places.

Methane has 4 C-H sigma bonds. Four bonds of equal length. Bond vector separated by 109.5°. This angle also happens to be the angle that places.
Hybridisation of s and p orbitals in alkanes, alkenes and alkynes Unit 3.

Hybridisation of s and p orbitals in alkanes, alkenes and alkynes Unit 3.
1 11.1 Organic Compounds 11.2 The Tetrahedral Structure of Carbon 11.3 Polarity of Organic Molecules Chapter 11 Introduction to Organic Chemistry.

Organic Compounds 11.2 The Tetrahedral Structure of Carbon 11.3 Polarity of Organic Molecules Chapter 11 Introduction to Organic Chemistry.
Hybridization Section 14.2. Introduction A hybrid results from combining 2 of the same type of object and it has characteristics of both Atomic orbitals.

Hybridization Section Introduction A hybrid results from combining 2 of the same type of object and it has characteristics of both Atomic orbitals.
Ionic structure of Na + Cl - (s) This represents the maximum number of chloride ions that you can fit around a central sodium ion before the chloride ions.

Ionic structure of Na + Cl - (s) This represents the maximum number of chloride ions that you can fit around a central sodium ion before the chloride ions.
© Prentice Hall 2001Chapter 11 Atomic Orbitals We cannot know the exact course of electrons as they orbit the nucleus - Heisenberg uncertainty principle.

© Prentice Hall 2001Chapter 11 Atomic Orbitals We cannot know the exact course of electrons as they orbit the nucleus - Heisenberg uncertainty principle.
Poodle + +Cocker Spaniel = = = = + +s orbitalp orbital Cockapoo sp orbital.

Poodle + +Cocker Spaniel = = = = + +s orbitalp orbital Cockapoo sp orbital.
Covalent Bonding: orbitals. Hybridization - The Blending of Orbitals = = + +s orbitalp orbital sp orbital.

Covalent Bonding: orbitals. Hybridization - The Blending of Orbitals = = + +s orbitalp orbital sp orbital.
Molecular Shape Section 9.4

Molecular Shape Section 9.4
Methane, CH 4 less repulsion between the bonding pairs of electrons 109.5° 90°

Methane, CH 4 less repulsion between the bonding pairs of electrons 109.5° 90°
Orbitalsand Covalent Bonds. Atomic Orbitals Don’t Work n to explain molecular geometry. n In methane, CH 4, the shape s tetrahedral. n The valence electrons.

Orbitalsand Covalent Bonds. Atomic Orbitals Don’t Work n to explain molecular geometry. n In methane, CH 4, the shape s tetrahedral. n The valence electrons.
COVALENT BONDING: ORBITALS HYBRIDIZATION (9.1). HYBRIDIZATION Consider methane,CH 4 C has 4 valence electrons 1s 2 2s 2 2p 2 This suggests that there.

COVALENT BONDING: ORBITALS HYBRIDIZATION (9.1). HYBRIDIZATION Consider methane,CH 4 C has 4 valence electrons 1s 2 2s 2 2p 2 This suggests that there.
Hybridization of Atomic Orbitals Some Material Copyright PGCC CHM 101 Sinex Some Graphics from Nelson Chemistry 12 Textbook.

Hybridization of Atomic Orbitals Some Material Copyright PGCC CHM 101 Sinex Some Graphics from Nelson Chemistry 12 Textbook.
Hybridization A Blending of Orbitals Methane CH 4 CH 4 Sometimes called “natural gas, ” methane is used to heat homes. Sometimes called “natural gas,

Hybridization A Blending of Orbitals Methane CH 4 CH 4 Sometimes called “natural gas, ” methane is used to heat homes. Sometimes called “natural gas,
6-5 Molecular Geometry. VSEPR Theory VSEPR theory – states that repulsion between the sets of valence-level electrons surrounding an atom causes these.

6-5 Molecular Geometry. VSEPR Theory VSEPR theory – states that repulsion between the sets of valence-level electrons surrounding an atom causes these.
Bonding theory Two methods of approximation are used to describe bonding between atoms. Valence bond method Bonds are assumed to be formed by overlap of.

Bonding theory Two methods of approximation are used to describe bonding between atoms. Valence bond method Bonds are assumed to be formed by overlap of.
Chapter 1: Structure and Bonding mcmurry. Coverage: 1. Electron Configurations. 2. Lewis Structures 3. Covalent and Ionic bonds 4. Atomic and Molecular.

Chapter 1: Structure and Bonding mcmurry. Coverage: 1. Electron Configurations. 2. Lewis Structures 3. Covalent and Ionic bonds 4. Atomic and Molecular.

Similar presentations

Ads by Google