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Covalent Bonds (DP IB Chemistry: HL)

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Stewart

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Sigma Bonds

Bond overlap in covalent bonds

  • A single covalent bond is formed when two nonmetals combine
  • Each atom that combines has an atomic orbital containing a single unpaired electron
  • When a covalent bond is formed, the atomic orbitals overlap to form a combined orbital containing two electrons
    • This new orbital is called the molecular orbital

  • The greater the atomic orbital overlap, the stronger the bond
  • Sigma (σ) bonds are formed from the head-on/ end-to-end overlap of atomic orbitals
  • The electron density is concentrated between the two nuclei
  • S orbitals overlap this way as well as p to p, and s with p orbitals

 Chemical Bonding Bond Overlap in Sigma Orbitals, downloadable AS & A Level Chemistry revision notes

Sigma orbitals can be formed from the end-on overlap of s orbitals

 

Sigma from s and p molecular orbitals, downloadable IB Chemistry revision notes

Hydrogen fluoride has sigma bonds between s and p orbitals

 

Sigma from two p molecular orbitals, downloadable IB Chemistry revision notes

Fluorine has sigma bonds between p orbitals

  •  The electron density in a σ bond is symmetrical about a line joining the nuclei of the atoms forming the bond
  • The pair of electrons is found between the nuclei of the two atoms
  • The electrostatic attraction between the electrons and nuclei bonds the atoms to each other

 

Pi Bonds

π bonds

  • Pi (π) bonds are formed from the sideways overlap of adjacent p orbitals
  • The two lobes that make up the π bond lie above and below the plane of the σ bond
  • This maximises overlap of the p orbitals
  • A single π bond is drawn as two electron clouds one arising from each lobe of the p orbitals
  • The two clouds of electrons in a π bond represent one bond containing two electrons

Chemical Bonding Bond Overlap in Pi Orbitals, downloadable AS & A Level Chemistry revision notes

π orbitals are formed by the end-on overlap of p orbitals

Examples of sigma & pi bonds

Hydrogen

  • The hydrogen atom has only one s orbital
  • The s orbitals of the two hydrogen atoms will overlap to form a σ bond

Chemical Bonding Orbital Overlap in Hydrogen, downloadable AS & A Level Chemistry revision notes

Direct overlap of the 1s orbitals of the hydrogen atoms results in the formation of a σ bond

Ethene

  • Each carbon atom uses three of its four electrons to form σ bonds
  • Two σ bonds are formed with the hydrogen atoms
  • One σ bond is formed with the other carbon atom
  • The fourth electron from each carbon atom occupies a p orbital which overlaps sideways with another p orbital on the other carbon atom to form a π bond
  • This means that the C-C is a double bond: one σ and one π bond

Chemical Bonding Pi Bond in Ethene, downloadable AS & A Level Chemistry revision notes

Overlap of the p orbitals results in the forming of a π bond in ethene

Chemical Bonding Electron Density in Ethene, downloadable AS & A Level Chemistry revision notes

Each carbon atom in ethene forms two sigma bonds with hydrogen atoms and one σ bond with another carbon atom. The fourth electron is used to form a π bond between the two carbon atoms

Ethyne

  • This molecule contains a triple bond formed from two π bonds (at right angles to each other) and one σ bond
  • Each carbon atom uses two of its four electrons to form σ bonds
  • One σ bond is formed with the hydrogen atom
  • One σ bond is formed with the other carbon atom
  • Two electrons are used to form two π bonds with the other carbon atom 1.3 Chemical Bonding Orbital Overlap in Ethyne_1, downloadable AS & A Level Chemistry revision notes

Ethyne has a triple bond formed from two π bonds and one σ bond between the two carbon atoms

Predicting the Type of Bonds

  • Whether sigma (σ) or pi (π) bonds are formed can be predicted by consideration of the combination of atomic orbitals 

Worked example

What type of molecular orbitals are found in nitrogen, N2, and hydrogen cyanide, HCN?

Answer

    • Nitrogen contains a triple bond and a lone pair on each nitrogen atom
    • Nitrogen atoms have the electronic configuration 1s22s22p3
    • The triple bond is formed from a σ bond and the overlap of two sets of p orbitals on the nitrogen atoms to form two π bonds
    • These π bonds are at right angles to each other

x8y0LM4A_molecular-orbitals-in-nitrogen

The triple bond is formed from two π bonds and one σ bond

    • Hydrogen cyanide contains a triple bond
    • One σ bond is formed between the H and C atom
    • A second σ bond is formed between the C and N atom
    • The remaining two sets of p orbitals of nitrogen and carbon will overlap to form two π bonds at right angles to each other

      Chemical Bonding Orbital Overlap in Hydrogen Cyanide, downloadable AS & A Level Chemistry revision notes

Hydrogen cyanide has a triple bond formed from a σ bond and the overlap of two sets of p orbitals of nitrogen

 

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Stewart

Author: Stewart

Expertise: Chemistry Lead

Stewart has been an enthusiastic GCSE, IGCSE, A Level and IB teacher for more than 30 years in the UK as well as overseas, and has also been an examiner for IB and A Level. As a long-standing Head of Science, Stewart brings a wealth of experience to creating Exam Questions and revision materials for Save My Exams. Stewart specialises in Chemistry, but has also taught Physics and Environmental Systems and Societies.