Nitrogen (N2) 78.084 % Oxygen (O2) 20.9476 % Argon (Ar) 0.934 % Carbon Dioxide (CO2) 0.0314 % Neon (Ne) 0.001818 % Methane (CH4) 0.0002 % Helium (He) 0.000524 % Krypton (Kr) 0.000114 % Hydrogen (H2) 0.00005 % Xenon (Xe) 0.0000087 %
Air does not have an equation.
You may mean formula.
Air does not have a formula either as it is a mixture.
The subscript denotes how much of that atom is in the molecule.
The chemical symbol (not equation) of hydrogen is H; the diatomic molecule is H2.
The equation is: H2O------>H+ + OH-
A coefficient.
An atom in an equaton is only the symbol of this element, not a molecule.
If there is an excess of air, the reaction should produce diphosphorus pentoxide as its only product. If additionally the phosphorus molecule is simply a phosphorus atom, the balanced equation is: 4 P + 5 O2 -> 2P2O5. If phosphorus is considered to form a tetraatomic molecule, the equation would be: P4 + 5 O2 -> 2 P2O5
The one labelled "molecule A".
The amount of each molecule
The subscript denotes how much of that atom is in the molecule.
The chemical symbol (not equation) of hydrogen is H; the diatomic molecule is H2.
CO2 is carbon dioxide. You may have got this from a balanced equation. The 6, called a coefficient, in front of the molecule shows how many of the molecule is needed for it to balance out with the rest of the equation.
Since there is no product, and only 1 reactant, it is not an equation, and thus, 4 molecules of sodium chloride
The equation is: H2O------>H+ + OH-
the heat in the air rises and the molecule nearest to it at the core the heat in the air rises and the molecule nearest to it at the coreHI the heat in the air rises and the molecule nearest to it at the coreHI BOB the heat in the air rises and the molecule nearest to it at the coreHI BOB vote McCain the heat in the air rises and the molecule nearest to it at the coreHI BOB vote McCain im Zach yates and i approve this message
whe a air molecule bounces of and object it puts force in to the object that it bounce of
Millions of organic compounds reactions are known !
Si + 2Cl2 ----> SiCl4