No. A third hydrogen atom can not join a water molecule. However, it can partially join a water molecule through a process called hydrogen bonding. So the third hydrogen is more attached to its own oxygen atom than it is attached to the other oxygen atom although it is attached to both.
A third hydrogen atom cannot join an H2 molecule to form an H3 molecule because the H2 molecule is already at its lowest energy state, known as the ground state. The two hydrogen atoms in an H2 molecule are held together by a strong covalent bond, and adding a third hydrogen atom would require breaking this stable bond, which would require more energy than is available. Additionally, the formation of an H3 molecule would violate the octet rule, as hydrogen can only have a maximum of two electrons in its valence shell.
Two hydrogen atoms need to be combined with one oxygen atom to form a molecule of water (H2O). Or you could have two hydrogen to two oxygen atoms, forming hydrogen peroxide (H2O2) but this is unstable and decomposes back to water and oxygen gas.
You get H2O, which is referred to as "hydrogen monoxide" -- or simply "water."If you're in doubt that it's referred to as "hydrogen monoxide," perhaps you need to do some research!
It's H2O which means two hydrogen molecules to one oxygenThe elements of Hydrogen and oxygen are chemically joined together to form water. Two atoms of hydrogen and one atom of oxygen are joined together chemically to form one molecule of water.
Water molecules are joined together by hydrogen bonds, which form between the slightly negatively charged oxygen atom of one water molecule and the slightly positively charged hydrogen atom of another water molecule. This creates a network of interconnected water molecules, giving water its unique properties such as cohesion, high surface tension, and high specific heat capacity.
Two hydrogen atoms. As H2, they join one oxygen atom to form H2O
A third hydrogen atom cannot join an H2 molecule to form an H3 molecule because the H2 molecule is already at its lowest energy state, known as the ground state. The two hydrogen atoms in an H2 molecule are held together by a strong covalent bond, and adding a third hydrogen atom would require breaking this stable bond, which would require more energy than is available. Additionally, the formation of an H3 molecule would violate the octet rule, as hydrogen can only have a maximum of two electrons in its valence shell.
Two hydrogen atoms need to be combined with one oxygen atom to form a molecule of water (H2O). Or you could have two hydrogen to two oxygen atoms, forming hydrogen peroxide (H2O2) but this is unstable and decomposes back to water and oxygen gas.
You get H2O, which is referred to as "hydrogen monoxide" -- or simply "water."If you're in doubt that it's referred to as "hydrogen monoxide," perhaps you need to do some research!
No. When making water by burning Hydrogen in Oxygen (a very explosive reaction) is that 2 atoms of Hydrogen and 1 atom of Oxygen join together to form 1 water molecular - H2O.
The hydrogen atom of one water molecule, with its partial positive charge, is attracted to the oxygen atom of a neighboring water molecule, with its partial negative charge, forming a hydrogen bond.
It's H2O which means two hydrogen molecules to one oxygenThe elements of Hydrogen and oxygen are chemically joined together to form water. Two atoms of hydrogen and one atom of oxygen are joined together chemically to form one molecule of water.
Water molecules are joined together by hydrogen bonds, which form between the slightly negatively charged oxygen atom of one water molecule and the slightly positively charged hydrogen atom of another water molecule. This creates a network of interconnected water molecules, giving water its unique properties such as cohesion, high surface tension, and high specific heat capacity.
well O2 would be formed,this is the natural state oxygen is found in,however o2 and an oxygen radical form O3 known as ozone Suboxide
Covalent bond
When two glucose molecules join together, a water molecule is lost through a dehydration reaction. This process forms a disaccharide molecule called maltose.
When you join one atom of hydrogen and one atom of helium, you get a molecule with the chemical formula HHe. This is not a stable combination as the resulting molecule is highly reactive due to the different properties of hydrogen and helium atoms.