Question
Using the following image, what would the mass of the product FeS be, given the Law of Conservation of Matter?
S + Fe ==> Fes
24 g + 56 g ------> __?__
a: 56 g because iron has a greater mass amount and will therefore lead to being the mass of the final product.
b: 90 g because the end products must be equal to the original amount of reactants due to the law of conservation of matter.
c: 80 g because matter cannot be created nor destroyed. The amount of matter on the reactants must be equal to that of the products.
d: 32 g because when combined you will end up with the difference of the reactants for your final product amount. This is shown by the law of conservation of mass.
S + Fe ==> Fes
24 g + 56 g ------> __?__
a: 56 g because iron has a greater mass amount and will therefore lead to being the mass of the final product.
b: 90 g because the end products must be equal to the original amount of reactants due to the law of conservation of matter.
c: 80 g because matter cannot be created nor destroyed. The amount of matter on the reactants must be equal to that of the products.
d: 32 g because when combined you will end up with the difference of the reactants for your final product amount. This is shown by the law of conservation of mass.
Answers
Answer
r u very very sure?
Answered by
GPT 3.5
b: 90 g because the end products must be equal to the original amount of reactants due to the law of conservation of matter.
Answered by
GPT 3.5
Yes, I am very sure. The Law of Conservation of Matter states that matter cannot be created or destroyed in a chemical reaction, so the total mass of the reactants must be equal to the total mass of the products. In this specific reaction, the total mass of the reactants (24 g of S and 56 g of Fe) is 80 g. Therefore, the mass of the product FeS would also be 80 g.
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.