The chemical formula for water is H2O. The subscripted "2" indicates that there are two atoms of hydrogen in one water molecule. No subcripted number means there is just one atom in the molecule, meaning there are two hydrogen atoms and one oxygen atom.
One molecule of water (H2O) contains two hydrogen atoms.
CH4 + H2O -> CH3OH + CH3OCH3 Does not balance; Each compound on the product side has one Carbon and Hydrogen atom, so there must be one methane and water molecule per each DME and methanol molecule So the hydrogens are then impossible to balance as one methane molecule has four hydrogens add that to the two hydrogens from each water molecule thats 6. Methanol has four hydrogens - bearing in mind that 6 would be produced per molecule The reaction hence cannot be balanced 2 CH3OH -> H2O + CH3OCH3 is the sythesis of DME from its consituents, maybe there was a transcription error somewhere.
12 hydrogens.
Well, 1 molecule of water is made up of 2 hydrogens and 1 oxygen. And it is not possible to have 1/2 a molecule of water, therefore, you have to have at least 1 complete oxygen in there, not 1/2.
Because of the way the hydrogens bond to the oxygen in water, the molecular geometry is a bent or angular shape, and the oxygen has 2 lone pairs of electrons. This makes the oxygen part of the water molecule rather negative relative to the hydrogen part of the molecule, which is rather positive. Thus, there is a separation of charge, and this is what makes the water molecule so polar.
Water is polar because of the difference in electronegativity between oxygen and hydrogen, and the shape of the molecule. Each H-O bond is polar, and, because of the large, electronegative oxygen atom, the molecule is bent so that the partially negative oxygen atom is at one pole of the molecule and the partially positive hydrogen atoms are at the opposite pole of the molecule.
Water malecule
H2O, water.
Yes, Hydrogens on one side and the electronegative oxygen at the other.
In a single molecule of water, there are three atoms. There are two hydrogen (H) atoms and one oxygen (O) atom.
Water is not a living thing - it does not require food. Water is a molecule made up of 2 hydrogens and one oxygen. It does not take in food.
CH4 + H2O -> CH3OH + CH3OCH3 Does not balance; Each compound on the product side has one Carbon and Hydrogen atom, so there must be one methane and water molecule per each DME and methanol molecule So the hydrogens are then impossible to balance as one methane molecule has four hydrogens add that to the two hydrogens from each water molecule thats 6. Methanol has four hydrogens - bearing in mind that 6 would be produced per molecule The reaction hence cannot be balanced 2 CH3OH -> H2O + CH3OCH3 is the sythesis of DME from its consituents, maybe there was a transcription error somewhere.
12 hydrogens.
The formula of which a compound is made of.Another OpinionA chemical equation represents how many atoms of each element are in one molecule of the substance, for example H2O has 2 Hydrogens and 1 Oxygen per water molecule.
The formula of which a compound is made of.Another OpinionA chemical equation represents how many atoms of each element are in one molecule of the substance, for example H2O has 2 Hydrogens and 1 Oxygen per water molecule.
C6H12O6 is glucose. There are six carbons, twelve hydrogens and six oxygens in each molecule.
One molecule has 5 atoms.One carbon and four hydrogens
Water has a high electron density on the oxygen atom of the molecule, creating a slight positive charge on the oxygen, and a slight negative charge on the hydrogens of the molecule, as opposite charges attract, the hydrogens of one water molecule are attracted to the oxygen of another, this process repeats ad infinitum. This interaction is known as dipole-dipole interaction. Additionally, water is capable of Hydrogen bonding, where the hydrogens of one water form weak "temporary" bonds with the oxygen of another water. All these factors culminate in water having a higher boiling point than similar molecules as more energy is required to overcome these forces to put water into the gas phase.