You would look at random space junk floating around the moon
DIE
No. Iron oxide (rust) gives Mars it's red color.
Mars' core is made primarily of iron and sulfur. It has a solid core like Earth that is wrapped in a mantle made of silicates. A mantle comprised mainly of silicate and a thick crust which appears to be basalt thinly covered in iron-oxide dust. Mars composition is quite similar to Earth's. Its core is mainly made from iron and sulfur. It is surrounded by a mantle of silicates and this is wrapped with a crust of basalt and iron oxide. Wow the previous answer was just bad. Mars much like earth has a core that is predominately Nickle, Iron and Sulfur. The mantle is likely Silicon, Oxygen, Iron, and Magnesium. The crust is volcanic rocks. Since the core is completely solid unlike earths there is no dynamo effect to create a magnetosphere which causes the surface of Mars to be highly irradiated at times due to solar radiation.
Hydrogen 73.46%Helium 24.85%Oxygen 0.77%Carbon 0.29%Iron 0.16%Sulfur 0.12%Neon 0.12%Nitrogen 0.09%Silicon 0.07%Magnesium 0.05%
Mars has an atmosphere that's about 95% carbon dioxide.
The crust of the Moon is composed mostly of oxygen, silicon, magnesium, iron, calcium, and aluminum. There are also trace elements like titanium, uranium, thorium, potassium and hydrogen. Scientists believe that the mantle of the Moon is largely composed of the minerals olivine, orthopyroxene and clinopyroxene. It's also believed to be more iron-rich than the Earth's mantle. Scientists think that the lunar core is made of metallic iron, with small amounts of sulfur and nickel.
Iron sulfide
No, heating would not separate iron and sulfur.
A compound of iron and sulfur is called ferric sulfide. But you would have to be pretty smart to do that.
Iron is a metal but sulfur is a nonmetal.
Sulfur before being heated in the mixture weighs less and is less reactive than in the heated mixture.
It depends on the temperature. If you only heat moderately, you will still have a mixture of iron and sulfur, even if the sulfur has melted and formed a kind of cement with the iron. If you put the mixture in a vacuum, and then heat up to the combustion temperature of the mixture, then you would get some amount of iron sulfide, which is a compound. You need the vacuum so that the sulfur, for instance, does not react with oxygen and just burn down to sulfur dioxide gas, probably leaving the iron mostly unaffected. If you have the exact ratio of iron to sulfur for reaction, you will get only iron sulfide compound, but any other ratio will leave either some iron or some sulfur unreacted.
If the mixture is powdered sulfur and iron filings, use a strong electrostatic field. The sulfur will jump to the opposite charge leaving the conductive iron behind. ***************************** Or, you could add carbon disulfide which would dissolve the sulfur.
I assume "iron filling" is supposed to mean iron filings? In this case, I would use a magnet to separate the two. The iron filings will stick to the magnet, leaving the sulfur behind.
Pyrite is made of iron and sulfur and is the compound iron sulfide with the chemical formula FeS2. It is not a mixture of iron and sulfur. The iron and sulfur are chemically combined to form a compound.
In a water well you would probably find iron and other ferrous minerals, calcite, sulfur, silica, feldspars, and clays among others.
Iron sulfates contain iron, sulfur and oxygen.
Iron is silver while sulfur is yellow, Iron is magnetic while sulfur is not, and Iron looks like dirt and sulfur looks like yellow powdered sugar