A 10-fold molar ratio means that there are 10 times as many moles of one substance compared to some other substance.
If you mean 1 to 10 then the equivalent ratio is 10 to 100If you mean: 1 to 10 then the equivalent ratio is 10 to 100
To calculate the mass of ethylene oxide needed to react with 10 g of water, you need to determine the molar ratio of water to ethylene oxide in the balanced chemical equation for the reaction. Once you have the molar ratio, you can use it to calculate the mass of ethylene oxide needed. The molar mass of ethylene oxide is 44.05 g/mol.
examplle: 3 cats and 10 dogs ratio of dogs to cats= 10/3
COBALT CARBIDE OZIDE
If you mean: 0.005 and 0.05 then it could be a ratio of 1 to 10
To measure a 10-fold molar excess of a substance, you would need to ensure that there is a concentration of that substance that is 10 times higher than the other reactant or product in the reaction. This can be achieved by calculating the molar ratio of the two substances and adjusting the volume or concentration accordingly. It is important to make sure that the excess does not lead to undesired side reactions or waste of resources.
Do you mean the molecular formula? If so, then it is C4H10. If you mean empirical formula, then it is C2H5.
If you mean: 21/30 then it is 7/10
If you mean as a ratio then it is 1/2
If you mean 10 and 16 then it is 5 and 8
To find the amount of calcium chloride needed, you would first need to determine the molar ratio between calcium chloride and potassium chloride in the chemical reaction. Then, you could use this ratio to calculate the amount of calcium chloride required to produce 10 g of potassium chloride. The molar ratio is 1:1, so the same amount of calcium chloride as potassium chloride, 10 g, would be needed.
Ben Folds Live at MySpace DVD was created on 2006-10-24.