Want this question answered?
H2O2 is the hydrogen peroxide.
The oxygen atom has 6 electrons in its outer shell, while the oxygen atom has 1 electron. The two hydrogen atoms share their electron with the oxygen atom, when this happens, the oxygen atom becomes a negative charge, while the hydrogen becomes positive charged. Opposite charges attract, thus a molecule of water is formed.
energ y is absorbed by the molecule to increase its kinetic energy
The role of photosynthesis II is the generation of ATP along with splitting of the water molecules. The electron transfer, is another function of photosynthesis II.
Each hydrogen atom has 1 electron. When two hydrogen atoms combine they each share that electron with the other hydrogen atom, creating a covalent bond and a molecule of H2.
H2O2 is the hydrogen peroxide.
The hydrogen will dissolve
Two water molecules can react to from hydrogen bonds. If one water molecule acts as an acid and donates a proton to another water molecule then hydronium ions an hydroxyl ions can be formed as well.
YES, this happens when hydrogen burns. 2H2 + O2 ==> 2H2O
The oxygen atom has 6 electrons in its outer shell, while the oxygen atom has 1 electron. The two hydrogen atoms share their electron with the oxygen atom, when this happens, the oxygen atom becomes a negative charge, while the hydrogen becomes positive charged. Opposite charges attract, thus a molecule of water is formed.
A hydroxide is taken from the glucose and a hydrogen is taken from the fructose. This leaves the glucose and fructose a place to bond. A hydroxide(HO) and a hydrogen (H) make a water molecule (H2O)
energ y is absorbed by the molecule to increase its kinetic energy
The role of photosynthesis II is the generation of ATP along with splitting of the water molecules. The electron transfer, is another function of photosynthesis II.
hydrogen bonds
A hydrogen bond is the attractive interaction of a hydrogen atom covalently bonded to a very electronegative atom, such as nitrogen, oxygen or fluorine, to another very electronegative atom in another molecule.The interaction is essentially electrostatic between the small positive charge on the hydrogen atom and the slight negative charge on the N, O or F atom in the other molecule.Examples are the hydrogen bonding in liquid water, alcohols, ammonia and also in solids, ice, solid hydrogen fluoride.In larger molecules that have the right shape the hydrogen bonding can occur within the molecule between a hydrogen atom covalently bonded to a very electronegative atom, such as nitrogen, oxygen and a very electronegative atom in another part of the molecule.
Firstly, there are two hydrogen molecules and one oxygen molecule that make up water. These hydrogen molecules are bound by hydrogen bonds to the oxygen molecule. Hence the meaning of H20. 2 hydrogens and 1 oxygen. The hydrogen molecules that are bound to the oxygen molecule are broken at high temperatures therefore water (in liquid condition) is turned into water vapor (gas condition).
Each hydrogen atom has 1 electron. When two hydrogen atoms combine they each share that electron with the other hydrogen atom, creating a covalent bond and a molecule of H2.