it can react if the iron is very hot...
You can react Aluminum to react with Ironoxide to get Iron. Iron(II)oxide + Aluminum --> Aluminumoxide + Iron Fe2O3 + 2Al --> Al2O3 + 2Fe
Carbon react with iron forming carbides in steel.
When iron reacts with air, they form ferric oxide.
The Latin language name of astatine is astatium.
Copper sulphate is a blue coloured solution. As soon as you react it with iron, you will notice that the solution is turning into light green which means iron sulphate solution is forming. Iron being more reactive than copper displaces copper from its soluion.
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.
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.
Yes, astatine can react with potassium bromide to form potassium astatide and bromine. This reaction is typically used in nuclear medicine laboratories to produce astatine compounds for medical research and treatment.
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.
Astatine could potentially replace the chlorine in potassium chloride to form astatine chloride and potassium. The reaction would likely be very rare and unstable due to astatine's radioactivity and scarcity.
Not known
Probably the reaction is possible only at a high temperature.
Yes, astatine can react with sodium iodine solution to form sodium astatide and iodine gas. This reaction is a displacement reaction where astatine displaces iodine from the sodium iodine solution.
Astatine can react with hydrogen to form hydrogen astatide (HAt) through a simple displacement reaction. This reaction is similar to the halogens' reactions with hydrogen when hydrogen halides are formed. Hydrogen astatide is a strong acid and highly reactive due to the polar covalent bond between hydrogen and astatine.
Astatine is reactive as a halogen; some compounds are HAt, NaAt, MgAt2, CAt4, AtBr, AtI, etc. The chemistry of astatine is practically not known because we have not sufficient quantities of astatine for study and also the half life of astatine isotopes are too short.
Iron can react with water in the presence of air and form rust.
Astatine reacts very quickly with hydrogen to form hydrogen astatide (HAt) gas. This reaction is highly exothermic and can result in explosive reactions due to the extreme reactivity of astatine.