hydrogen has two hydrogen atoms and two oxygen atoms and water has one hydrogen and one oxygen atoms
H2O2 is the formula for hydrogen peroxide.
1,204428358.1023 atoms of hydrogen
No, hydrogen peroxide is H2O2, meaning in each molecule there are two hydrogen atoms and two oxygen atoms. Water is H2O, meaning that each molecules has two hydrogen atoms and one oxygen atom. Hydrogen peroxide has different chemical and physical properties from water. It is more acidic, more viscous, and has a higher boiling point. It decomposes easily into water and oxygen and is a strong oxidizer.
Far from it. Water contains one oxygen atom with two hydrogen atoms bonded to it. Hydrogen peroxide has two oxygen atoms each with its own hydrogen atom.Right now you're like, "well, so what?" The two oxygen atoms are connected with a single bond - the "peroxide group." Peroxides are very unstable and energetic. Pure hydrogen peroxide can be used as rocket fuel.
The term h2o2 is the chemical composition of hydrogen peroxide. It has two atoms of hydrogen and two atoms of oxygen and is also known as "heavy water."
They are totally different compounds, even though they both contain hydrogen and oxygen. The ratios of the elements are not the same. The formula for water is H2O, and for hydrogen peroxide is H2O2. In a molecule of water, two hydrogen atoms are chemically bonded to one oxygen atom, whereas in one molecule of hydrogen peroxide, there are two atoms of hydrogen and two atoms of oxygen bonded together. This makes them completely different compounds with different properties.
Hydrogen peroxide is a molecule because it is a combination of atoms with a bond.
H2O2 is the formula for hydrogen peroxide.
1,204428358.1023 atoms of hydrogen
Hydrogen peroxide is a molecule because it is a combination of atoms with a bond.
Hydrogen peroxide has two atoms of hydrogen and oxygen.
No, hydrogen peroxide is H2O2, meaning in each molecule there are two hydrogen atoms and two oxygen atoms. Water is H2O, meaning that each molecules has two hydrogen atoms and one oxygen atom. Hydrogen peroxide has different chemical and physical properties from water. It is more acidic, more viscous, and has a higher boiling point. It decomposes easily into water and oxygen and is a strong oxidizer.
If you mean hydrogen peroxide, it's 2 hydrogen atoms and two oxygen atoms. H2 O2
Hydrogen peroxide (H2O2) contains two atoms of hydrogen and two atoms of oxygen for a total of four atoms.
Water is H2O. Each molecule contains 2 atoms of hydrogen and 1 atom of oxygen. Water is a very stable compound. Hydrogen peroxide is H2O2. Each molecule contains 2 atoms of hydrogen and 2 atoms of oxygen. Hydrogen peroxide is an unstable compound that easily decomposes into water and oxygen gas. It is also a strong oxidizing agent.
The formula for water is H2O, and for hydrogen peroxide is H2O2. In a molecule of water, two hydrogen atoms are chemically bonded to one oxygen atom, whereas in one molecule of hydrogen peroxide, there are two atoms of hydrogen and two atoms of oxygen bonded together. This makes them completely different compounds with different properties. - - - - - "Peroxide" refers to a compound that has two oxygen atoms bonded together with a single bond. This bond isn't stable, and breaks apart fairly easily. Hydrogen peroxide looks like: H - O - O - H The two H - O bonds are very stable. (In water, you've got two of these bonds, so you have a very stable compound.) But if (when?) that O - O bond breaks apart, you have two free radicals that are just looking for another atom to connect to. The thing about H2O2 is, hydrogen peroxide, as unstable as it is, is the most stable peroxide there is. Some peroxides are so dangerous it's illegal to transport them on the roads and they must be produced at the factory they're going to be used at.
Peroxide is an compound that can be a part of another chemical to form a molecule. Hydrogen peroxide is two hydrogen atoms attached to a peroxide molecule, forming hydrogen peroxide. Peroxide itself (O2) only exists as molecular oxygen when it is not attached to another chemical.