It is not very likely to react, it is the least reactive of all halogens, but instead it has very radioactive instable isotopes, halftimes smaller than 12 hours. So even 'if' exsisting after reaction, then it won't stay long 'in the bottle' as FeAt2 (ferro astanide) to label it.
Well, hello there! Astatine is a very rare and highly reactive element, so it can react with other elements in the environment. However, astatine is not known to rust like iron does. Instead, it tends to undergo radioactive decay relatively quickly. Just remember, every element has its own unique way of interacting with the world around it.
Iron would not react with aluminum nitrate because iron is less reactive than aluminum and would not displace aluminum from its compound.
You would need to react iron with sulfuric acid (H2SO4) to produce iron sulfate (FeSO4).
Yes, potassium is more reactive than iodine. Potassium is a highly reactive alkali metal, while iodine is a nonmetal that is less reactive. Potassium reacts vigorously with water and air, while iodine is less reactive under normal conditions.
Yes because it reacts with Sulphur(S) to make Iron Sulphide a totally new substance.
Astatine can react with iron, forming astatide ions (At-) in aqueous solutions. This reaction is rare and not well studied due to astatine's scarcity and radioactivity. The astatine ion would likely displace another halogen ion in a salt with iron, similar to reactions with other halogens like iodine.
Astatine is a reactive halogen element and would likely react with iron to form iron(III) astatide, in a similar manner to other halogens like iodine or bromine. Iron can exist in multiple oxidation states, but in this case, it would likely form a compound where astatine has a -1 oxidation state.
Well, hello there! Astatine is a very rare and highly reactive element, so it can react with other elements in the environment. However, astatine is not known to rust like iron does. Instead, it tends to undergo radioactive decay relatively quickly. Just remember, every element has its own unique way of interacting with the world around it.
Iron and calcium nitrate would not react with each other under normal conditions. Calcium nitrate is a source of calcium and nitrate ions, while iron is a separate element. In order for a reaction to occur, there needs to be a suitable chemical reaction between the substances.
Not known
Iron would not react with aluminum nitrate because iron is less reactive than aluminum and would not displace aluminum from its compound.
The iron would react with the oxygen in the water to make iron oxide, or rust.
Magnetite- it is naturally magnetic. Graphite is carbon- non magnetic
i think its iron
Yes, iron can react with chlorine to form iron chloride. Iron has multiple oxidation states, with the most common being iron(II) and iron(III) chloride when reacted with chlorine gas.
Fluorine would react with iron to form iron(III) fluoride (FeF3). The reaction is highly exothermic and may occur spontaneously at room temperature. Iron fluoride is a white, crystalline solid that is insoluble in water.
Iron can react with water in the presence of air and form rust.