5
2 atoms of S + 10 atoms of F = 12 atoms total
The chemical formula for maltose is C12H22O11, so there are a total of 12 carbon atoms in a molecule of maltose. A molecule of maltose has 11 oxygen atoms, not 12.
The formula of a compound called methane is CH4. This formula shows, among many other things, that there are four times as many hydrogen atoms as carbon atoms in methane and that each molecule contains 5 total atoms.
Aluminium sulfate is Al2(SO4)3 and has two aluminium, three sulphates and 12 oxygens. So there are a total of 17 atoms.
There are 5 atoms in aluminum oxide Al2O3 just add the 2 and the 3!
2 atoms of S + 10 atoms of F = 12 atoms total
2 atoms of S + 10 atoms of F = 12 atoms total
H2SO4 is the chemical formula of sulfuric acid; the molecule has 7 atoms.
How does a subscript affect the element just before it?
Chemical fomula is BaCO3.So there are 6 atoms.
Barium hydroxide (the formula is Ba(OH)2) contain two hydrogen atoms.
A molecular formula indicates the number and kinds of atoms in a molecule of the substance. For example, the molecular formula for water, H2O, indicates that each molecule of water contains two hydrogen atoms and one oxygen atom.
The chemical formula for maltose is C12H22O11, so there are a total of 12 carbon atoms in a molecule of maltose. A molecule of maltose has 11 oxygen atoms, not 12.
The formula of a compound called methane is CH4. This formula shows, among many other things, that there are four times as many hydrogen atoms as carbon atoms in methane and that each molecule contains 5 total atoms.
The chemical formula for maltose is C12H22O11, so there are a total of 12 carbon atoms in a molecule of maltose. A molecule of maltose has 11 oxygen atoms, not 12.
The chemical formula for maltose is C12H22O11, so there are a total of 12 carbon atoms in a molecule of maltose. A molecule of maltose has 11 oxygen atoms, not 12.
The molecular formula is used to get the total number of atoms belonging to each element that is present in a single molecule of a particular compound. The formula is common in physics, chemical engineering and chemistry.