Within a water molecule is covalent bonds. between water molecules are hydrogen bonds.
Water molecules contain polar covalent bonds.
Water have covalent bonds.
Water would not be able to form hydrogen bonds
the bond between two water molecule is hydrogen bond.
Water molecules form hydrogen bonds with each other. These bonds form between the hydrogen atom of one water molecule and the oxygen atom of another water molecule. Hydrogen bonding is responsible for the unique properties of water, such as its high boiling point, surface tension, and the ability to dissolve many substances.
Vibrational.
The polarity of the water molecule, which causes hydrogen bonds to form between the water molecules, is the characteristic that enables it to act as a lubricant.
No. Hydrogen bonds form as a result of highly unequal charge distribution.
four
They are polar and form hydrogen bonds
hydrogen bonds
No ethane (C2H6) is a hydrocarbon and hydrocarbons can't form hydrogen bonds. Only molecules containing hydrogen (H) bonded with nitrogen (N), oxygen (O) or fluorine (F) can form hydrogen bonds.
Water would not be able to form hydrogen bonds
Only covalent bonds form a molecule. Ionic bonds form an ionic compound.
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the bond between two water molecule is hydrogen bond.
A single water molecule can make three to four hydrogen bonds. A single water molecule can usually make three hydrogen bonds but in some cases it can make up to four. Hint: If your high school Biology teacher is asking you this question the number of hydrogen bonds a molecule of water can make is almost always three (just remember one bond for each element).
Water is composed of Two Hydrogen atoms that form a polar covalent bond with an oxygen atom.
A water molecule can form up to 4 hydrogen bonds as it has 2 hydrogen atoms and 2 lone pairs. A hydrogen fluoride molecule has 1 hydrogen atom and can form 2 hydrogen bonds.