1.3.7
Bond Length, Bond Energy, & Bond Polarity
Bond Length, Bond Energy, & Bond Polarity
Bond Length, Bond Energy, & Bond Polarity
Covalent bonds are formed by a shared pair of electrons. Covalent bonds have different characteristics including length, energy, and polarity.
Bond length
Bond length
- To understand the concept of bond length, an appreciation of the formation of covalent bonds is important.
- Taking the formation of the bond in H2 as an example:
- The potential energy of two separate hydrogen atoms decreases as they approach each other.
- The single electrons on each atom are shared to form a covalent bond.
- The bond length is the internuclear distance at which the lowest potential energy is achieved.
Bond energy
Bond energy
- Bond energy is the energy required to break one mole of a particular bond in gaseous molecules. It is a measure of the strength of a bond.
- In the case of H2, the covalent bond is very strong.
- A large amount of energy, 436 kJ, must be added to break the bonds in one mole of hydrogen molecules and cause the atoms to separate:
- H2(g)⟶2H(g) Δ𝐻 = 436 kJ
- Conversely, the same amount of energy is released when one mole of H2 molecules forms from two moles of H atoms:
- 2H(g)⟶H2(g) Δ𝐻 = − 436 kJ
Pure covalent bonds
Pure covalent bonds
- If the atoms that form a covalent bond are identical, as in H2 then the electrons in the bond must be shared equally.
- We refer to this as a pure covalent bond. Electrons shared in pure covalent bonds have an equal probability of being near each nucleus.
Polar covalent bonds
Polar covalent bonds
- When the atoms linked by a covalent bond are different, the bonding electrons are more attracted to one atom than the other.
- This gives rise to a shift of electron density toward that atom.
- This unequal distribution of electrons is known as a polar covalent bond.
- A polar covalent bond characterized by a partial positive charge (δ+) on one atom and a partial negative charge (δ-) on the other.
Bond polarity
Bond polarity
- So, the definition you need to know for bond polarity is:
- *bond polarity** is the difference in charge between two atoms in a bond that leads to the formation of dipoles.
Reactivity
Reactivity
- Shorter bond lengths tend to give higher bond energies. This is because the negative electrons in the bond are closer to the positive nucleus.
- So, it can be more difficult to break molecules with shorter bond lengths. This can make them less reactive.
- Polar bonds tend to be more reactive. This is because reactions usually initiate because of attraction between two species (e.g. a δ+ and a δ- atom).
- These are both general principles. Many other factors affect reactivity.
1Physical Chemistry
1.1Atoms, Molecules & Stoichiometry
1.2Atomic Structure
1.2.1Fundamental Particles
1.2.2Isotopes & Mass Number
1.2.3Electron Shells, Sub-Shells & Orbitals
1.2.4Electron Configuration
1.2.5Ionisation Energy
1.2.6Factors Affecting Ionisation Energies
1.2.7Trends of Ionisation
1.2.8Specific Impacts on Ionisation Energies
1.2.9Electron Affinity
1.2.10End of Topic Test - Atomic Structure
1.2.11A-A* (AO2/3) - Atomic Structure
1.3Chemical Bonding
1.3.1Ionic Bonding
1.3.2Covalent & Dative Bonding
1.3.3Shapes of Molecules
1.3.4Intermolecular Forces
1.3.5Intermolecular Forces 2
1.3.6Electronegativity
1.3.7Bond Length, Bond Energy, & Bond Polarity
1.3.8Metallic Bonding
1.3.9Physical Properties
1.3.10End of Topic Test - Bonding
1.3.11A-A* (AO2/3) - Bonding
1.4States of Matter
1.5Chemical Energetics
1.6Electrochemistry
1.7Equilibria
1.7.1Dynamic Equilibrium & Le Chatelier
1.7.2Kc
1.7.3Kp
1.7.4pH
1.7.5The Ionic Product of Water
1.7.6Weak Acids & Bases
1.7.7Introduction to Solubility Equilibria
1.7.8Solubility Equilibria Calculations
1.7.9Free Energy of Dissolution
1.7.10pH and Solubility
1.7.11Common-Ion Effect
1.7.12End of Topic Test - Kp & Electrochemistry
1.7.13A-A* (AO2/3) - Electrochemical Cells
1.8Partition Coefficient
1.9Reaction Kinetics
1.9.1Collision Theory
1.9.2Orders, Rate Constants & Equations
1.9.3Rate Graphs
1.9.4Rate Determining Step
1.9.5Maxwell-Boltzmann Distribution
1.9.6Catalysts
1.9.7Homogeneous Catalysts
1.9.8Heterogeneous Catalysts
1.9.9End of Topic Test - Kinetics
1.9.10End of Topic Test - Rate Equations
1.9.11A-A* (AO2/3) - Rate Equations
2Inorganic Chemistry
2.1The Periodic Table
2.2Group 2
2.3Group 17
2.4Transition Metals
3Organic Chemistry & Analysis
3.1Introduction to Organic Chemistry
3.2Hydrocarbons
3.2.1Fractional Distillation
3.2.2Cracking
3.2.3Combustion
3.2.4Chlorination
3.2.5End of Topic Test - Alkanes
3.2.6Introduction to Alkenes
3.2.7Reactions of Alkenes
3.2.8Polymerisation Reactions
3.2.9End of Topic Test - Alkenes
3.2.10Arenes
3.2.11Evidence for Structure of Arenes
3.2.12Reactions of Benzene
3.2.13End of Topic Test -Arenes
3.3Halogen Derivatives
3.4Hydroxy Compounds
3.5Carbonyl Compounds
3.6Carboxylic Acids & Derivatives
3.7Nitrogen Compounds
3.8Polymerisation
3.9Analytical Techniques
3.9.1Chromatography
3.9.2High-Performance Liquid Chromatography
3.9.3Gas Chromatography
3.9.4IR Spectroscopy
3.9.5Uses of IR Spectroscopy
3.9.6Mass Spectrometry
3.9.7Mass Spectrometry Analysis
3.9.8Nuclear Magnetic Resonance
3.9.9Carbon-13 NMR
3.9.10Proton NMR I
3.9.11Proton NMR II
3.9.12End of Topic Test - Analytical Techniques
3.9.13A-A* (AO2/3) - Analytical Techniques
Jump to other topics
1Physical Chemistry
1.1Atoms, Molecules & Stoichiometry
1.2Atomic Structure
1.2.1Fundamental Particles
1.2.2Isotopes & Mass Number
1.2.3Electron Shells, Sub-Shells & Orbitals
1.2.4Electron Configuration
1.2.5Ionisation Energy
1.2.6Factors Affecting Ionisation Energies
1.2.7Trends of Ionisation
1.2.8Specific Impacts on Ionisation Energies
1.2.9Electron Affinity
1.2.10End of Topic Test - Atomic Structure
1.2.11A-A* (AO2/3) - Atomic Structure
1.3Chemical Bonding
1.3.1Ionic Bonding
1.3.2Covalent & Dative Bonding
1.3.3Shapes of Molecules
1.3.4Intermolecular Forces
1.3.5Intermolecular Forces 2
1.3.6Electronegativity
1.3.7Bond Length, Bond Energy, & Bond Polarity
1.3.8Metallic Bonding
1.3.9Physical Properties
1.3.10End of Topic Test - Bonding
1.3.11A-A* (AO2/3) - Bonding
1.4States of Matter
1.5Chemical Energetics
1.6Electrochemistry
1.7Equilibria
1.7.1Dynamic Equilibrium & Le Chatelier
1.7.2Kc
1.7.3Kp
1.7.4pH
1.7.5The Ionic Product of Water
1.7.6Weak Acids & Bases
1.7.7Introduction to Solubility Equilibria
1.7.8Solubility Equilibria Calculations
1.7.9Free Energy of Dissolution
1.7.10pH and Solubility
1.7.11Common-Ion Effect
1.7.12End of Topic Test - Kp & Electrochemistry
1.7.13A-A* (AO2/3) - Electrochemical Cells
1.8Partition Coefficient
1.9Reaction Kinetics
1.9.1Collision Theory
1.9.2Orders, Rate Constants & Equations
1.9.3Rate Graphs
1.9.4Rate Determining Step
1.9.5Maxwell-Boltzmann Distribution
1.9.6Catalysts
1.9.7Homogeneous Catalysts
1.9.8Heterogeneous Catalysts
1.9.9End of Topic Test - Kinetics
1.9.10End of Topic Test - Rate Equations
1.9.11A-A* (AO2/3) - Rate Equations
2Inorganic Chemistry
2.1The Periodic Table
2.2Group 2
2.3Group 17
2.4Transition Metals
3Organic Chemistry & Analysis
3.1Introduction to Organic Chemistry
3.2Hydrocarbons
3.2.1Fractional Distillation
3.2.2Cracking
3.2.3Combustion
3.2.4Chlorination
3.2.5End of Topic Test - Alkanes
3.2.6Introduction to Alkenes
3.2.7Reactions of Alkenes
3.2.8Polymerisation Reactions
3.2.9End of Topic Test - Alkenes
3.2.10Arenes
3.2.11Evidence for Structure of Arenes
3.2.12Reactions of Benzene
3.2.13End of Topic Test -Arenes
3.3Halogen Derivatives
3.4Hydroxy Compounds
3.5Carbonyl Compounds
3.6Carboxylic Acids & Derivatives
3.7Nitrogen Compounds
3.8Polymerisation
3.9Analytical Techniques
3.9.1Chromatography
3.9.2High-Performance Liquid Chromatography
3.9.3Gas Chromatography
3.9.4IR Spectroscopy
3.9.5Uses of IR Spectroscopy
3.9.6Mass Spectrometry
3.9.7Mass Spectrometry Analysis
3.9.8Nuclear Magnetic Resonance
3.9.9Carbon-13 NMR
3.9.10Proton NMR I
3.9.11Proton NMR II
3.9.12End of Topic Test - Analytical Techniques
3.9.13A-A* (AO2/3) - Analytical Techniques
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