2
Its impossible. The carbon and hydrogen are 2 different elements, they are 2 different atoms.If hydrogen atoms connect that's going to become a hydrogen molecule.And carbon is an atom, not a molecule.
2. Hydrogen and oxygen. H2O, so 2 hydrogen and 1 oxygen
The formula tells how many atoms of which elements are found in a molecule of propane. It indicates that there are 3 atoms of carbon and 8 atoms of hydrogen in a molecule of propane.
hydrogen atom 2 oxygen atom 1
No, the other way 'round. An element exists at the single-atom level. A molecule is made of more than one atom. It can be a single element(hydrogen is more stable if 2 form a molecule H2), or can be hugely complex and made up of many different elements.
i think there are 3 elements hydrogen; sulfur; and oxygen
The hydrogen molecule contains 4 Hydrogen atoms, and one Carbon in the centre.
There are two elements.They are Carbon and Hydrogen.
There are 5 elements: carbon, hydrogen, oxygen, nitrogen, and phosphorus.
The formula for glucose is C6H12O6, so 12 hydrogen.
the Hydrogen molecule has a single covalent bonds between its constituent atoms.
There are 3 Oxygen Carbon Hydrogen
A molecule of glucose has three different elements viz., carbon, oxygen and hydrogen. The molecular formula of glucose is C6H12O6. There is actually 24 different elements. There are 6 Carbon elements,12 Hydrogen elements, and 6 Oxygen elements.
Its impossible. The carbon and hydrogen are 2 different elements, they are 2 different atoms.If hydrogen atoms connect that's going to become a hydrogen molecule.And carbon is an atom, not a molecule.
A molecule of glucose has three different elements viz., carbon, oxygen and hydrogen. The molecular formula of glucose is C6H12O6. There is actually 24 different elements. There are 6 Carbon elements,12 Hydrogen elements, and 6 Oxygen elements.
2. Hydrogen and oxygen. H2O, so 2 hydrogen and 1 oxygen
Two atoms are contained a single diatomic molecule. Elemental Hydrogen is an example of this where two hydrogen atoms share their only electrons in a single covalent bond.