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Sigma bond

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Physical Science

Definition

A sigma bond is a type of covalent bond that results from the head-on overlap of atomic orbitals, where the electron density is concentrated along the axis connecting the two nuclei. This bond is the first bond formed between two atoms and is essential for the molecular structure and geometry. Sigma bonds provide stability to molecules and influence their physical and chemical properties.

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5 Must Know Facts For Your Next Test

  1. Sigma bonds can form between different types of orbitals, such as s-s, s-p, or p-p orbitals, creating strong connections between atoms.
  2. In a double or triple bond, one bond is always a sigma bond, while the additional bonds are pi bonds, which are weaker.
  3. Sigma bonds allow for free rotation around the bond axis, giving flexibility to molecular shapes.
  4. The formation of a sigma bond involves the sharing of two electrons, one from each bonding atom, resulting in a strong attractive force between the nuclei.
  5. The strength and length of a sigma bond depend on the type of atomic orbitals that overlap; for instance, an s-s overlap generally forms a stronger bond than a p-p overlap.

Review Questions

  • How does the formation of sigma bonds influence molecular geometry?
    • The formation of sigma bonds is crucial for determining molecular geometry because they create fixed points where atoms are bonded. Since sigma bonds result from head-on overlaps between atomic orbitals, they dictate how atoms are arranged in space relative to each other. This arrangement influences angles between bonds and overall shape, which are key factors in understanding how molecules interact with each other.
  • Compare and contrast sigma bonds with pi bonds regarding their formation and strength.
    • Sigma bonds and pi bonds differ in how they are formed and their relative strength. Sigma bonds form through head-on overlap of atomic orbitals, resulting in a strong connection with electron density along the axis between nuclei. In contrast, pi bonds arise from side-to-side overlap of p orbitals, leading to weaker interactions with electron density located above and below this axis. While every double or triple bond includes one sigma bond, pi bonds add additional bonding but are less robust than sigma bonds.
  • Evaluate the role of sigma bonds in determining the physical properties of molecules.
    • Sigma bonds play a significant role in determining the physical properties of molecules due to their influence on molecular shape and stability. Because sigma bonds allow free rotation around the bond axis, they contribute to various conformations that affect boiling points, melting points, and reactivity. Additionally, since stronger sigma bonds result in greater stability, they can impact a molecule's overall resistance to chemical changes. Understanding these relationships helps predict how substances behave under different conditions.
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