Atoms don't look like anything because their diameter is smaller than the wave length of visible light. Not enough light reflects off of a single atom to give it a shape or even detectable color.
When iron and sulfur combine to form iron sulfide, the compound appears as a grey, solid material. Iron sulfide has a crystalline structure and is often found as a mineral known as pyrite, which has a metallic luster.
When sulfur and iron are heated together, they react to form iron sulfide. Iron sulfide is a compound, not a mixture, so it does not show the properties of its individual elements like sulfur and iron. The formation of this compound is a chemical reaction where the atoms of sulfur and iron rearrange to create a new substance with different properties.
When copper powder is mixed with sulfur, it does not react in the same way as iron powder does. Copper and sulfur do not have a strong affinity for each other, so they typically do not react vigorously like iron and sulfur do, which form iron sulfide. Copper sulfide is a more stable compound that can be formed under specific conditions.
You can use a magnet to separate iron from sulfur since iron is magnetic while sulfur is not. By using the magnet to attract the iron particles, you can separate them from the sulfur.
Sulfur and iron filings together are a mixture.
Iron is a metal, but sulfur is a non-metal. Iron is a transition metal with metallic properties such as conductivity and malleability, while sulfur is a non-metal with properties like brittleness and poor conductivity.
Iron is a transition metal with a silvery-grey color, while sulfur is a non-metal with a yellow color. Iron is a good conductor of electricity, while sulfur is a poor conductor. Iron tends to form positive ions in chemical reactions, whereas sulfur typically forms negative ions.
When iron and sulfur combine to form iron sulfide, the compound appears as a grey, solid material. Iron sulfide has a crystalline structure and is often found as a mineral known as pyrite, which has a metallic luster.
ironsulphide
When sulfur and iron are heated together, they react to form iron sulfide. Iron sulfide is a compound, not a mixture, so it does not show the properties of its individual elements like sulfur and iron. The formation of this compound is a chemical reaction where the atoms of sulfur and iron rearrange to create a new substance with different properties.
No. No, sulfur is not magnetic.
When copper powder is mixed with sulfur, it does not react in the same way as iron powder does. Copper and sulfur do not have a strong affinity for each other, so they typically do not react vigorously like iron and sulfur do, which form iron sulfide. Copper sulfide is a more stable compound that can be formed under specific conditions.
You can use a magnet to separate iron from sulfur since iron is magnetic while sulfur is not. By using the magnet to attract the iron particles, you can separate them from the sulfur.
Iron sulfates contain iron, sulfur and oxygen.
Iron sulfide is a compound composed of iron and sulfur elements, while iron sulfur refers to a mixture of iron and sulfur elements. Iron sulfide has a specific chemical formula (FeS) and a defined structure, whereas iron sulfur is a general term that does not imply a specific composition or structure.
A mixture of iron and sulfur can be separated by using a magnet to attract the iron (which is magnetic) while leaving the sulfur behind. The iron can then be removed, leaving the sulfur as the only component remaining.
Sulfur does not have a strong attraction to specific metals like iron or nickel. However, sulfur can react with some metals to form sulfides, such as iron sulfide (FeS) or copper sulfide (CuS).