how the particals behave in the reaction between iron and suiphur
Exactly what do you mean? I can answer your question if you clarify it and tell me exactly what you are looking for.
what are uses of generators
First, if you have a question, it is much better to put it in as a separate post in <Post a New Question> rather than attaching it to a previous question, where it is more likely to be overlooked.
Second, since this is not my area of expertise, I searched Google under the key words "generator uses" to get these possible sources:
http://en.wikipedia.org/wiki/Electrical_generator
http://theepicenter.com/tow1230.html
http://tobeinformed.com/854/home-ozone-generator-uses/
There are more sources.
In the future, you can find the information you desire more quickly, if you use appropriate key words to do your own search. Also see http://hanlib.sou.edu/searchtools/.
I hope this helps. Thanks for asking.
In the reaction between iron and sulfur, the particles behave in a way that leads to the formation of a compound known as iron sulfide. Let's discuss how these particles behave and what happens during this reaction.
Iron (Fe) is a metal, while sulfur (S) is a non-metal. When iron and sulfur react, the atoms of each element rearrange their connections to form new bonds and create a new substance. The reaction can be represented by the following chemical equation:
Fe + S → FeS
Here is a step-by-step breakdown of how the particles behave in this reaction:
1. Formation of iron atoms: In order for the reaction to occur, iron atoms must be present. Typically, iron is available in the form of solid iron filings or iron powder.
2. Formation of sulfur atoms: Similarly, sulfur is required in the form of solid sulfur powder or small crystals. The sulfur atoms are bound together in a lattice structure.
3. Breaking the bonds: In order for the reaction to proceed, the bonds holding the iron and sulfur atoms in their respective solid forms must be broken. This requires energy input, usually in the form of heat.
4. Collision and mixing of iron and sulfur particles: Once the iron and sulfur atoms are in their elemental form, they begin to mix together. This can occur through gentle grinding or simply by shaking the mixture.
5. Redistribution of electrons: During the reaction, iron atoms lose some of their electrons, while sulfur atoms gain these electrons. This process is known as electron transfer or oxidation-reduction.
6. Formation of iron sulfide: The iron and sulfur atoms combine to form iron sulfide (FeS). Each iron atom bonds with one sulfur atom, resulting in the formation of a new substance. The iron sulfide compound has different properties compared to the original iron and sulfur atoms.
To observe this reaction, you can carry out a small-scale experiment. Take a mixture of iron filings and powdered sulfur in a test tube or other suitable container. Heat the mixture gently using a Bunsen burner or a flame source, while stirring continuously. You will notice the reaction taking place, with the formation of a dark-colored compound, iron sulfide.
Remember to always exercise caution and appropriate safety measures when conducting chemical experiments.