007-Hydrogen Bonding & Water

Fundamentals of Biochemistry
10 Jun 201409:01

Summary

TLDRThis educational video delves into aqueous chemistry, focusing on water's unique properties due to hydrogen bonding. Despite being composed of only oxygen and hydrogen, water's polar nature and ability to form hydrogen bonds with four neighboring molecules make it highly cohesive. These bonds, although short-lived, contribute to water's high surface tension and its anomalous expansion upon freezing. The video also touches on water's role as a universal solvent, capable of forming hydrogen bonds with other molecules, often involving nitrogen, oxygen, or sulfur. This insight into water's molecular interactions is crucial for understanding its behavior in biological systems.

Takeaways

  • πŸ’§ Water is a crucial component of living organisms, making up about 60% of our body mass.
  • πŸ”— The water molecule has a tetrahedral structure due to the two covalent bonds and two lone pairs on the oxygen atom.
  • βš›οΈ Oxygen's higher electronegativity results in a polar molecule, with a partial negative charge and partial positive charges on hydrogen.
  • πŸ”— Hydrogen bonding occurs between water molecules due to the alignment of dipoles, influenced by proximity and orientation.
  • 🌑️ The strength of hydrogen bonds in water can vary, with linear arrangements leading to the strongest bonds.
  • 🌐 Water's ability to form hydrogen bonds makes it highly cohesive, allowing one molecule to bond with up to four others.
  • πŸ•’ Hydrogen bonds in water are short-lived, lasting only picoseconds, reflecting the dynamic nature of molecular interactions.
  • 🌊 The cohesive nature of water leads to high surface tension, allowing insects like water striders to float.
  • ❄️ In the solid state, water expands due to hydrogen bonding, making ice less dense than liquid water and causing it to float.
  • πŸ”¬ Water can form hydrogen bonds not only with itself but also with other molecules containing electronegative atoms like nitrogen, oxygen, or sulfur.
  • πŸ” Recognizing hydrogen bond donors and acceptors is essential for understanding molecular interactions in biological systems.

Q & A

  • What percentage of our body mass is water?

    -By mass, we are mostly water, about 60%.

  • What is the molecular structure of water?

    -The water molecule is composed of an oxygen atom covalently bonded to two hydrogen atoms, resulting in a tetrahedral structure due to the two sets of unpaired electrons on the oxygen atom.

  • Why is water considered a polar molecule?

    -Water is considered a polar molecule because of the presence of unpaired electrons on the oxygen atom, which results in a partial negative charge on oxygen and a partial positive charge on the hydrogen atoms.

  • How do hydrogen bonds form between water molecules?

    -Hydrogen bonds form between water molecules when the oxygen atom of one water molecule is attracted to the hydrogen atom of another due to the partial charges, resulting in a bond that is not covalent but still significant.

  • What factors affect the strength of hydrogen bonds in water?

    -The strength of hydrogen bonds in water is affected by proximity and orientation of the atoms involved. A linear arrangement of oxygen-hydrogen-oxygen allows for maximum orbital overlap and the strongest bond.

  • Why is water described as highly cohesive?

    -Water is highly cohesive due to its ability to form hydrogen bonds with other water molecules, allowing one water molecule to hydrogen bond with up to four others.

  • What is the lifetime of a hydrogen bond in water?

    -The lifetime of a hydrogen bond in water is very short, on the order of picoseconds, indicating that water molecules are in nearly constant motion.

  • How does the cohesive nature of water molecules contribute to surface tension?

    -The cohesive nature of water molecules leads to high surface tension because surface water molecules have stronger interactions with each other due to the lack of molecules above them to form hydrogen bonds.

  • Why is ice less dense than liquid water?

    -Ice is less dense than liquid water because the hydrogen bonds in the solid state form a porous, cage-like structure that expands, making ice less dense and causing it to float.

  • Can water form hydrogen bonds with other molecules besides itself?

    -Yes, water can form hydrogen bonds with other molecules, provided there is an electronegative atom with a lone pair of electrons to share, such as nitrogen, oxygen, or sulfur in biological systems.

  • What is the difference between covalent bonds and hydrogen bonds in water?

    -Covalent bonds in water refer to the bonds within the water molecule (intramolecular), which are shorter and stronger. Hydrogen bonds are intermolecular interactions between separate water molecules and are longer and weaker.

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Related Tags
Aqueous ChemistryHydrogen BondingWater PropertiesPolar MoleculeBiological MoleculesChemical BondsSurface TensionUniversal SolventCohesionBiological Systems