They're called hydrogen bonds. It's a bond between the positive hydrogen and the negative oxygen in the water molecule. While the bond isn't as strong as the other three bonds (metallic, ionic, covalent), its strength gives water its surface tension and cohesion properties, as well as causing ice to float.
Did you mean the "water-water bonds" ? If so, the answer is...
Nonpolar covalent bond
Water molecules are linked by hydrogen bonds.
The two main types of chemical bonds are ionic and covalent.
To provide a source of water for a range of applications.This can include:Drinking WaterWater for commercial uses (bottling plants, breweries etc)AgricultureBasically anything where water is used in large quantities.The main reason for using a borehole rather than a normal water supplies are - location (not always easy to get water pumped in to rural places) and the potential cost savings. Borehole water is much cheaper than the water you get through your taps.
The main intermolecular forces between water molecules are hydrogen bonds which are pretty strong as far as intermolecular forces go. Between hydrocarbon chains (oil) the main intermolecular force are London force which are weaker. For two liquids to be miscible the intermolecular forces between them have to be similar in strength or they won't dissolve. Water and oil have different strengths of intermolecular bonds so don't mix.
Ionic, covalent, hydrogen.
Is the molecular formula which indicates the main carbon-carbon bonds, or other type of atoms except the hydrogen-carbon bonds Example:
Water has two main bonds: hydrogen bonds between other water molecules, and a covalent bond between hydrogen and oxygen.
Water has two main bonds: hydrogen bonds between other water molecules, and a covalent bond between hydrogen and oxygen.
There are 3 main types of chemical bonds. The three main chemical bonds are Ionic, Hydrogen and Covenant.
There are three main types of chemical bonds. The main types are; ionic bonding, covalent bonding and polar covalent bonding.
The two main types of chemical bonds are ionic and covalent.
Its in the top right corner in the museum in the main street on steamworks
To provide a source of water for a range of applications.This can include:Drinking WaterWater for commercial uses (bottling plants, breweries etc)AgricultureBasically anything where water is used in large quantities.The main reason for using a borehole rather than a normal water supplies are - location (not always easy to get water pumped in to rural places) and the potential cost savings. Borehole water is much cheaper than the water you get through your taps.
Examples: ionic, covalent, metallic bonds.
The main intermolecular force holding water molecules together in hydrogen bonding. Also, there are diplole-dipole interactions and London dispersion forces. But hydrogen bonds are the major force keeping water in the liquid state.
The main intermolecular forces between water molecules are hydrogen bonds which are pretty strong as far as intermolecular forces go. Between hydrocarbon chains (oil) the main intermolecular force are London force which are weaker. For two liquids to be miscible the intermolecular forces between them have to be similar in strength or they won't dissolve. Water and oil have different strengths of intermolecular bonds so don't mix.
Callable bonds are similar to regular bonds in many ways. The main different is that callable bonds can be redeemed before the bond has completely matured.
The main reasons of atoms forming bonds are: * To become stable * to fulfill their outer shell * to form compounds