No. The hydrogen and oxygen in water are combined into a single substance; it does not get one property from hydrogen or another from oxygen but rather has its own unique set of properties based on how they are combined. It is unclear what "energy" you are referring to.
Hydrogen bonds form between water molecules and are relatively weak because there is actually no transferring or sharing of electrons. It would takes much less energy to break hydrogen bonds between water molecules than it does to break the molecules into oxygen and hydrogen.
There are two atoms of hydrogen in a water molecule, but no hydrogen molecules.
The hydrogen bonds between the water molecules in the liquid are broken.
When heat/energy is added, static hydrogen bonds are unmade which cause water to be in a solid crystal-like structure, and the water molecules are freer to link up new hydrogen bonds with other water molecules or other electronically polarised molecules or others with a hydrogen, oxygen or nitrogen atom.
Hydrogen bonds hold water molecules to each other. They're the strongest of the Van der Waal's forces.
Hydrogen bonds form between water molecules and are relatively weak because there is actually no transferring or sharing of electrons. It would takes much less energy to break hydrogen bonds between water molecules than it does to break the molecules into oxygen and hydrogen.
There are two atoms of hydrogen in a water molecule, but no hydrogen molecules.
Water molecules are attracted to each other, resulting in the formation if weak chemical bonds, called hydrogen donds. When water is heated the heat energy disrupts the hydrogen bonds reulting in hydrogen bonds between water molecules to be broken.
Water molecules are attracted to each other, resulting in the formation if weak chemical bonds, called hydrogen donds. When water is heated the heat energy disrupts the hydrogen bonds reulting in hydrogen bonds between water molecules to be broken.
The hydrogen bonds between the water molecules in the liquid are broken.
Water molecules are attracted to each other, resulting in the formation if weak chemical bonds, called hydrogen donds. When water is heated the heat energy disrupts the hydrogen bonds reulting in hydrogen bonds between water molecules to be broken.
It breaks the hydrogen bonds between the water molecules
Hydrogen bonding causes water molecules to connect . The energy required to break multiple hydrogen bonds causes water to have a high heat of vaporization; that is, a large amount of energy is needed to convert liquid water, where the molecules are attracted through their hydrogen bonds, to water vapor, where they are not.
Intermolecular forces, i.e. hydrogen-bonds, have to be broken down in order for water molecules to escape to the vapor phase. Energy is needed in the process to set water molecules free.
Water's high heat capacity is a property caused by hydrogen bonding among water molecules. When heat is absorbed, hydrogen bonds are broken and water molecules can move freely. When the temperature of water decreases, the hydrogen bonds are formed and release a considerable amount of energy.
one of the hydrogen molecules are water
When heat/energy is added, static hydrogen bonds are unmade which cause water to be in a solid crystal-like structure, and the water molecules are freer to link up new hydrogen bonds with other water molecules or other electronically polarised molecules or others with a hydrogen, oxygen or nitrogen atom.