The ratio of carbon atoms to oxygen atoms in the compound CH2O is 1:1.
In sodium chloride (table salt), the ratio of sodium atoms to oxygen atoms is 1:0, as there are no oxygen atoms present in pure table salt.
The ratio of atoms for hydrogen peroxide is 2:2:2, which means it contains two hydrogen atoms, two oxygen atoms, and two hydrogen atoms. This can be represented by the chemical formula H2O2.
The ratio of hydrogen to oxygen atoms in galactose is 2:1. In the molecular formula of galactose, C6H12O6, there are 12 hydrogen atoms and 6 oxygen atoms.
In a compound with the formula P2O5, the ratio of phosphorus to oxygen atoms is 2:5. This means there are two phosphorus atoms for every five oxygen atoms in the compound.
This ratio is 2/5.
In a potassium nitrate molecule (KNO3), the ratio of potassium atoms to nitrogen atoms is 1:1.
This ratio is different for each compound; for the oxide P4O10 the ratio is 2/5.
The ratio of carbon atoms to oxygen atoms in the compound CH2O is 1:1.
The ratio of phosphorus atoms to oxygen atoms in a compound can vary depending on the specific compound. For example, in phosphorus pentoxide (P4O10), the ratio is 4:10.
The ratio of atoms in monosaccharides is 1 carbon: 2 hydrogen: 1 oxygen.
A chemical formula gives the number ratio of the different kinds of atoms present in the compound. This means that the ratios are the same if you count in individual atoms, dozens of atoms, or molecules of atoms.
The ratio (as atoms) carbon/oxigen in graphitic oxides is between 2,1 and 2,9.
In sodium chloride (table salt), the ratio of sodium atoms to oxygen atoms is 1:0, as there are no oxygen atoms present in pure table salt.
The ratio of atoms in mercurous chloride (Hg2Cl2) is 2:2:2, as there are two atoms of mercury (Hg) and two atoms of chlorine (Cl) in each molecule of mercurous chloride. This means the ratio of mercury to chlorine atoms in mercurous chloride is 1:1.
C to O in the ratio 1 : 2.
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