Viscosity is the resistance of flow and surface tension is the lateral force of the bonds between the molecules
Generally larger molecules with stronger intermolecular forces have higher surface tension. This tendency can be seen if you look at the surface tensions of the alkanes. Water is a clear exeption to this pattern due to the very strong hydrogen bonds.
Water molecules can make hydrogen bonds with other water molecules. Hydrogen bonds are the strongest type of intermolecular forces. This explains the high surface tension of water.
Water molecules are associated by hydrogen bonds.
Cohesion of water molecules occurs through the formation of hydrogen bonds between molecules
Because of the polarity of the water molecule, hydrogen bonds form between them. This results in the higher surface tension. Oil is nonpolar, so hydrogen bonds do not form between the molecules, so the surface tension is less.
Viscosity is the resistance of flow and surface tension is the lateral force of the bonds between the molecules
Generally larger molecules with stronger intermolecular forces have higher surface tension. This tendency can be seen if you look at the surface tensions of the alkanes. Water is a clear exeption to this pattern due to the very strong hydrogen bonds.
the surface tension has bonds, and the soap breaks those bonds, so if the soap water is put onto a surface.. it will slip off
Water forms hydrogen bonds, which gives it a strong surface tension.
The surface tension in a cup of water is caused by attraction. The hydrogen molecules in the water are attracted to the polar oxygen bonds.
Soap will lower the surface tension of water. Like any surfactant soap will lower the surface energy by disrupting the strong inter-molecular hydrogen bonding that confers such a strong surface tension to water.
Water's surface tension and heat storage capacity is accounted by itsHydrogen Bonds
The surface tension caused over a liquid is cased by the molecular bonds of the liquid.
Because of the polarity of the water molecule, hydrogen bonds form between them. This results in the higher surface tension. Oil is nonpolar, so hydrogen bonds do not form between the molecules, so the surface tension is less.
When water is heated, that energy can be given to the hydrogen bonds, keeping the water cool. So, water has a high specific heat because it takes a lot of energy to heat it up. Surface tension is a result of hydrogen bonds holding the surface molecules together tightly. So the relationship between water's high specific heat and surface tension is that hydrogen bonds are responsible for both of them. If hydrogen didn't have these bonds, water's specific heat would be normal, and its surface tension negligable.
surface tension