Structure Of Water Molecule - Chemistry Of Water - Properties Of Water - Composition Of Water

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29 Jan 201802:12

Summary

TLDRThe video explores the chemistry of water, emphasizing its role as a vital inorganic molecule in the body, making up over 50% of an adult's weight. Water is a polar molecule with unique properties that allow it to form hydrogen bonds and act as an effective solvent. It explains how water dissolves hydrophilic substances and forms hydration shells, while hydrophobic substances need transport proteins. This makes water essential for transporting various compounds, like ions in salt or fats in blood. The video concludes by highlighting water’s function as a universal solvent and transporter in biological systems.

Takeaways

💧 Water is an inorganic molecule and the most important compound in the body, making up over 50% of an adult's body weight.
🧪 A water molecule consists of one oxygen atom covalently bonded to two hydrogen atoms, with covalent bonds formed by sharing pairs of electrons.
⚛️ Water molecules are polar because the electrons are not equally shared between oxygen and hydrogen atoms, giving oxygen a partial negative charge and hydrogen a partial positive charge.
🔗 Each water molecule can form up to four hydrogen bonds with adjacent water molecules due to its polarity.
🌊 Hydrogen bonds are the result of unequal charge distribution, making water a polar molecule, and this property allows water to act as an effective solvent.
💧 Substances that dissolve or break apart in water are called hydrophilic (water-loving), while non-polar substances that do not dissolve are hydrophobic (water-fearing).
🌀 Water forms hydration shells around substances that dissolve in it, such as glucose, keeping the molecules intact.
🧂 Some substances, like table salt (NaCl), dissociate into ions in water, with water molecules forming hydration shells around the ions.
🚚 Water acts as a transporter in the body, helping blood carry dissolved substances throughout the system.
🛡️ Non-polar hydrophobic substances like fats and cholesterol must be enclosed within transport proteins to move through water-based fluids like blood.

Q & A

What is the significance of water in the human body?
-Water is the most important compound in the body, making up 50% or more of a normal adult's body weight. It plays a crucial role in various biological functions such as hydration, chemical reactions, and transporting substances.
What type of molecule is water, and how is it structured?
-Water is an inorganic molecule made up of one oxygen atom covalently bonded to two hydrogen atoms. This covalent bond is formed by sharing pairs of electrons between the atoms.
Why is water considered a polar molecule?
-Water is considered a polar molecule because the electrons in the molecule are not shared equally between oxygen and hydrogen atoms. This gives the oxygen side a partial negative charge and the hydrogen side a slightly positive charge.
How many hydrogen bonds can one water molecule form with other water molecules?
-Each water molecule can form up to four hydrogen bonds with adjacent water molecules due to its polarity.
What is the role of hydrogen bonds in water molecules?
-Hydrogen bonds in water molecules result from unequal charge distribution, allowing water to act as an effective solvent. These bonds help water dissolve or break apart many substances.
What is the difference between hydrophilic and hydrophobic substances?
-Hydrophilic substances, or 'water-loving' substances, dissolve in water, while hydrophobic substances, or 'water-fearing' substances, do not dissolve in water and require transport proteins to move within water-based fluids.
What happens to substances like glucose when they dissolve in water?
-When glucose dissolves in water, water molecules surround the glucose molecules, forming a hydration shell that keeps the substance intact.
What happens to table salt (NaCl) when it dissolves in water?
-When NaCl dissolves in water, it dissociates into positive sodium (Na+) ions and negative chlorine (Cl-) ions, with hydration shells forming around each ion to keep them separated in solution.
Why is water an effective transporter of substances in the body?
-Water's ability to dissolve many substances and form hydration shells around ions and molecules allows it to transport these substances in water-based fluids like blood throughout the body.
How are nonpolar substances like fats and cholesterol transported in the body if they do not dissolve in water?
-Nonpolar substances such as fats and cholesterol do not dissolve in water. To be transported in blood, they must be enclosed within transport proteins that allow them to move through the water-based environment.