Following the law of conservation of mass, also 10.0 grams.
exactly 10.0 grams
Also 10 grams.
27 g Na + H2O = 40 g NaOH + 3 g H2. Law of Conservation of Mass. The reactants must have the same number of grams of the products. 40 + 3 = 43. 43 - 27 = 16 g H2O.
431.5 grams A+LS =^.^=
hi
234 grams
Following the Law of Conservation of Mass (see link below), there will be 20 grams of products in a reaction of 20 grams of reactions.
The Conservation of Matter states that matter cannot be destroyed or created. Therefore in a reaction the masses of the reactants and products remain constant. In balancing a reaction the law applies in that all atoms must be accounted for and equalized across both sides of the equation.
4
The law of conservation of mass means that if you start out with 100 grams of reactants, you will end up with 100 grams of products. In addition, the number and types of atoms in the reactants and products will be the same.
a balanced equation shows the correct proportion and mole/grams of the reactants involved....
The theoretical yield of a reaction is the amount of some product, usually given in mass units of grams, that you would expect to get if the reaction based on a stoichiometric calculation not actually "running" the reaction in the laboratory. The actual yield is just that,it is the actual amount of product, in grams you actually produced after really running the experiment in the lab.Actual yield data comes from experimentally determined results. You can not "calculate" it.
The coefficients in a balanced chemical equation shows how many moles of each reactant is needed in order for a reaction to take place. After determining how many moles of each reactant is required, you would convert it to grams to calculate how much of each reactant is needed to form a given amount of product in a chemical reaction.
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It is possible to have ten grams of anything. Specifying the total weight tells you nothing about which reactant you have or what reaction it will undergo.
50
Also 10 grams.
Also 10 grams.