Not known
Cl2 + 2KAt arrow 2KCl +At2 Chlorine + Potassium Astatide arrow Potassium Chloride + Astatine This happens because Chlorine is more reactive than Astatine so the chlorine displaces the Astatine to produce Potassium Chloride and Astatine.
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.
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.
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.
You'd think astatine would oxidize (take the electron from) iodide, but At is a weaker oxidizer than I, so that's out. However, if you look at the I2 and KI reaction, it forms KI3. KI3 contains a cluster of three iodine atoms, one of which has an extra pair of electrons. None of the lighter halogens do this, but trends indicate that astatine wouldn't be bothered too much by the extra pair. Thus, the reaction probably looks like this: K+ + I- + At2 --> K+ + At2I- Or more simply: KI + At2 --> KAt2
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.
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.
The word equation for the reaction between sodium and astatine is: sodium + astatine → sodium astatide.
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.
When potassium astatine reacts with bromine, it forms potassium bromide and astatine. The reaction is likely to be quite vigorous due to the high reactivity of astatine and the relative electronegativity difference between the two elements.
The word equation for the reaction between sodium and astatine would be: sodium + astatine → sodium astatide.
Not known
Yes, there will be a reaction between astatine and sodium iodide solution. Astatine is a halogen like iodine and can displace iodine in sodium iodide forming astatide. This reaction is similar to how chlorine displaces bromine in sodium bromide.
Cl2 + 2KAt arrow 2KCl +At2 Chlorine + Potassium Astatide arrow Potassium Chloride + Astatine This happens because Chlorine is more reactive than Astatine so the chlorine displaces the Astatine to produce Potassium Chloride and Astatine.
It is possible but this reaction was not studied.
Yes, there would be a chemical reaction if sodium astatine (NaAt) was mixed with chlorine water (sodium hypochlorite solution). The sodium from NaAt would react with the chlorine in the water to form sodium chloride (table salt) and astatine would likely form astatine chloride. This reaction would release heat and possibly some toxic gases.
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.