If you are mentioning about sticking two hydrogen atoms with one oxygen atom, then it's water. Other than that, oxygen and hydrogen are not together, unless they are water, hydrogen peroxide, or some other compound with an -OH group. In such compounds the hydrogen and oxygen are held together by covalent bonds, the sharing of electrons.
The atoms in molecules of oxygen gas (O2) are held together by a double covalent bond, where two pairs of electrons are shared between the oxygen atoms. In contrast, the atoms in molecules of nitrogen gas (N2) are held together by a triple covalent bond, where three pairs of electrons are shared between the nitrogen atoms.
Oxygen is a gas at room temperature and pressure because its molecules are not held tightly together and are able to move around freely. The weak intermolecular forces between oxygen molecules allow them to escape their fixed positions and move independently, resulting in a gas state.
Hydrogen chloride molecules are held together by a polar covalent bond. This bond forms when the chlorine atom and the hydrogen atom share electrons unequally, with the chlorine atom hogging the electrons more than the hydrogen atom.
A diagram showing molecules closely packed together in a regular and organized pattern represents molecules in the solid phase. The molecules in a solid are held together by strong bonds and have very little movement.
Hydrogen bonds hold together molecules such as DNA strands, protein secondary structures like alpha helices and beta sheets, and between water molecules. These bonds are important for maintaining the structure and function of these biological molecules.
In water and many other compounds hydrogen and oxygen are held by covalent bonds.Between water molecules and between other polar molecules hydrogen of one molecule and oxygen of a different molecule are held by hydrogen bonds.
A water molecule is held together by covalent bonds between its two hydrogen atoms and one oxygen atom. Additionally, water molecules can form hydrogen bonds with other water molecules, which contribute to the unique properties of water such as high surface tension and ability to dissolve substances.
Yes, oxygen is a diatomic normally. It forms a diatomic molecule with the formula O2. It is held together with a double covalent bond.
Hydrogen and oxygen atoms in a water molecule are held together by a covalent bond. This bond involves the sharing of electrons between the atoms to create a stable molecule.
A water molecule is held together by a covalent bond between the oxygen atom and the two hydrogen atoms.
It all has to do with string theory. There are tiny "strings", as physicists call it, that help the molecules overcome the gravitational and electrostatic forces and bind them together.
When two or more atoms combine they form a molecule, which is eclectically neutral and is held together by very strong covalent chemical bonds. An example of a molecule is H2O, which is two Hydrogen atoms and one oxygen atom.
No, water molecules are held together by covalent bonds, where electrons are shared between the atoms. Ionic bonds involve the transfer of electrons between atoms of different elements. Water is a polar molecule due to the unequal sharing of electrons, resulting in a slightly negative oxygen atom and slightly positive hydrogen atoms.
Molecules have groups of two or more atoms held together by chemical bonds.
An oxygen molecule is held together by a covalent bond. This bond forms when two oxygen atoms share electrons to achieve a stable electron configuration.
Yes, a single molecule of oxygen (O2) is held together by two double nonpolar covalent bonds. Each oxygen atom shares four electrons with the other, creating a stable bond that helps form the O2 molecule.
Water molecules are held together by hydrogen bond which is formed between hydrogen of one molecule and oxygen of other molecule. H2O-----H-O-H