The hydrogen and oxygen are held together by polar covalent bonds.
Polar covalent bonds form between the oxygen and hydrogen atoms in a water molecule.
ionic bonds
In a water molecule the hydrogen atoms are held to the oxygen atom by covalent chemical bonds.
The two hydrogen atoms in a hydrogen molecule are held together by a covalent bond.
The bond between an oxygen and hydrogen atom is polar covalent.
The two atoms share their electrons - so it is a covalent bond ie a shared pair.
double covalent bonds
In a water molecule the hydrogen atoms are held to the oxygen atom by covalent chemical bonds.
In a water molecule the hydrogen atoms are held to the oxygen atom by covalent chemical bonds.
The two hydrogen atoms in a hydrogen molecule are held together by a covalent bond.
The polar covalent bond between the hydrogen and oxygen atoms holds it together.
The bond between an oxygen and hydrogen atom is polar covalent.
True
Bonds hold atoms together. There are hydrogen bonds, ionic bonds, and covalent bonds.
The two atoms share their electrons - so it is a covalent bond ie a shared pair.
Covalent bonds. The hydrogen and oxygen bond together by sharing outer shell electrons.
The bond in water is covalent.
Yes. Remember that when 2 atoms of the same or different elements combine, it forms a molecule. 2 hydrogen atoms + 1 Oxygen atom = 1 molecule of H20(water). The same holds true for proteins, proteins are composed of amino acids, which are in turn composed of different molecules, which are also composed of different atoms.
In a molecule of oxygen, the two atoms of oxygen are bonded to each other by covalent bonding. The two atoms of oxygen share their two valence electrons and achieve stable electronic configuration.