Use the chemical reaction to answer the question.
4Fe+3O2→2Fe2O3
What happens to atoms of Fe and O2 during the reaction?
They are rearranged. i did, They maintain their properties and got it wrong it was supposed to be They are rearranged.
happy I can help someone not make the mistake I did = )
😊 ❤
No they don't maintain their properties BECAUSE Fe becomes Fe2O3 and O2 becomes Fe2O3.
I would answer that Fe is oxidized and O2 is reduced.
Well, during the reaction, the Fe and O2 atoms decide to have a little get-together. The Fe atoms bring their magnetic charm, while the O2 atoms bring their love for oxygen. They end up forming a beautiful compound called Fe2O3, otherwise known as rust. It's like a chemistry romance story where Fe and O2 atoms bond together, leaving a trail of rusty hearts behind. So, to answer your question, the Fe atoms and O2 atoms combine to form Fe2O3. Love is in the air... or should I say, in the Fe2O3!
In order to understand what happens to the atoms of Fe and O2 during the reaction, we need to analyze the chemical equation provided.
The chemical equation represents a reaction between iron (Fe) and oxygen gas (O2) to produce iron(III) oxide (Fe2O3). Let's break down the equation and see how the atoms are affected:
On the left side of the arrow (reactant side):
- We have 4 atoms of iron (Fe).
- We have 3 molecules of oxygen gas (O2), each molecule containing 2 atoms of oxygen. Therefore, we have a total of 6 atoms of oxygen (O2 x 2 = 6 O atoms).
On the right side of the arrow (product side):
- We have 2 molecules of iron(III) oxide (Fe2O3), each molecule containing 2 atoms of iron and 3 atoms of oxygen. Therefore, we have a total of 4 atoms of iron (2 x 2 = 4 Fe atoms) and 6 atoms of oxygen (2 molecules x 3 O atoms = 6 O atoms).
Now, let's compare the number of atoms before and after the reaction:
- The number of iron atoms remains the same on both sides, with 4 atoms of iron.
- The number of oxygen atoms also remains the same on both sides, with 6 atoms of oxygen.
Based on these observations, we can conclude that the atoms of Fe and O2 are conserved during the reaction. This principle is known as the Law of Conservation of Mass, which states that matter is neither created nor destroyed in a chemical reaction; it only changes form or rearranges its composition.
To summarize, during the reaction represented by the given chemical equation (4Fe + 3O2 → 2Fe2O3), the atoms of Fe and O2 are conserved.