Hydrogen bonds caused by the polar properties of a water molecule.
surface tension
hydrogen bonds
This is because the intermolecular forces holding the molecules of phenol together are stronger than the intermolecular forces holding the molecules of alcohol together.
Ionic bonds do not hold molecules together all the time. Covalent bonds can also hold molecules together, so it isn't just ionic bonds that do that.
The force holding the molecules are stronger (colder=closer together), therefore the bubbles have more force holding them together.
Oxygen molecules are not polar, so their are no dipole attractions. Further, there are no hydrogen bonds holding oxygen molecules together. The only real intermolecular force would be dispersion forces.
Gases diffuse faster than liquids because the intermolecular forces holding gases together are significantly weaker than those holding liquids together. This allows the molecules of the gas to move faster than those of a liquid.
hydrogen bonding.
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.
In any solid the particles have bonds holding the atoms together into molecules, and bonds (or forces) holding the molecules together to form the solid.
Strong force
This is because the intermolecular forces holding the molecules of phenol together are stronger than the intermolecular forces holding the molecules of alcohol together.
Hydrogen bonds are responsible for holding the two strands of DNA together.
Ionic bonds do not hold molecules together all the time. Covalent bonds can also hold molecules together, so it isn't just ionic bonds that do that.
GLIAL
The force holding the molecules are stronger (colder=closer together), therefore the bubbles have more force holding them together.
The dispersion force is responsible for holding nitrogen crystals together
nuclear force
the force that is holding the molecules together