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That depends on the other products and or reactants and the percentage yield (measure of efficiency) of the reaction.
In a closed system, the mass of the products equals the mass of the reactants.
They would be equal .Because of the conservation of matter no mass can be destroyed or created
they are they same. the products of photosynthesis are oxygen and glucose and the reactants of cellular respiration are gluose and oxygen.
the product's properties usually and may differ from the properties of the reactants. Example-salt-sodium, a soft explosive metal and chlorine, a toxic gas. make salt.
Reactants are what the products are made out of. The products are the end result.
The mass of the reactants compare to the mass of the products in that they are equal. The law to conservation of mass states that mass cannot be createdor destroyed. It can only be altered which would be a case in a chemical reaction.
The mass of the products should equal the mass of the reactants.
That depends on the other products and or reactants and the percentage yield (measure of efficiency) of the reaction.
In a closed system, the mass of the products equals the mass of the reactants.
They would be equal .Because of the conservation of matter no mass can be destroyed or created
Every combustion process is exothermic (the release of heat and light) so the products have low energy as compare to reactants which are in this case Butane and oxygen.
Mass can neither be created or destroyed in a chemical reaction, so there is a requirement that the mass of all the reactants MUST equal that of the products.
Since I do not know which reactants and which products you refer to, I can only tell you that the properties will be different.
they are they same. the products of photosynthesis are oxygen and glucose and the reactants of cellular respiration are gluose and oxygen.
the product's properties usually and may differ from the properties of the reactants. Example-salt-sodium, a soft explosive metal and chlorine, a toxic gas. make salt.
Stability of the products as compare to stability of reactants.