(i)- Potassium Acquires The Utmost Position In The Reactivity Series Whereas Iron Lags Behind.
(ii)- Iron Is a Transition Metal, Whereas Potassium Is An Alkali Metal.
When iron reacts with potassium chloride, a single displacement reaction occurs. The iron displaces potassium in the compound, forming iron chloride and potassium metal. The balanced chemical equation for this reaction is 2Fe + 2KCl -> 2K + 2FeCl3.
The reaction between iron (III) oxide and potassium metal forms potassium oxide and iron metal as products. This is represented by the chemical equation: Fe2O3 + 6K -> 3K2O + 2Fe.
The balanced equation for the reaction between iron(III) nitrate and potassium thiocyanate solution is: Fe(NO₃)₃ + 3KSCN → Fe(SCN)₃ + 3KNO₃ Iron(III) nitrate reacts with potassium thiocyanate to form iron(III) thiocyanate and potassium nitrate.
Potassium iron is typically in the solid phase, as it forms a compound like potassium ferrate (K2FeO4) or iron potassium oxides (KFeO2).
No, iron is harder than potassium. Iron is a metal with a higher Mohs hardness rating than potassium, which is a soft alkali metal.
When iron reacts with potassium chloride, a single displacement reaction occurs. The iron displaces potassium in the compound, forming iron chloride and potassium metal. The balanced chemical equation for this reaction is 2Fe + 2KCl -> 2K + 2FeCl3.
aluminium +potassium=salt +water
The reaction between iron (III) oxide and potassium metal forms potassium oxide and iron metal as products. This is represented by the chemical equation: Fe2O3 + 6K -> 3K2O + 2Fe.
The balanced equation for the reaction between iron(III) nitrate and potassium thiocyanate solution is: Fe(NO₃)₃ + 3KSCN → Fe(SCN)₃ + 3KNO₃ Iron(III) nitrate reacts with potassium thiocyanate to form iron(III) thiocyanate and potassium nitrate.
No, iron and potassium alone do not form an ionic compound because they are both metals. Ionic compounds typically form between a metal and a nonmetal. Iron and potassium can form ionic compounds with nonmetals like oxygen to produce compounds such as iron(III) oxide (Fe2O3) and potassium oxide (K2O).
Potassium iron is typically in the solid phase, as it forms a compound like potassium ferrate (K2FeO4) or iron potassium oxides (KFeO2).
The reaction between iron III oxide and potassium metal will result in the formation of potassium oxide and iron metal. The balanced chemical equation for this reaction is: 4K + Fe2O3 -> 2Fe + 3K2O.
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No, iron is harder than potassium. Iron is a metal with a higher Mohs hardness rating than potassium, which is a soft alkali metal.
elements
if iron has an oxidation state of +2 K2(CO3) + FeBr2 ---> KBr + FeCO3 if iron has an oxidation state of +3 3K2(CO3) + 2FeBr3 ----> 6KBr + Fe2(CO3)3
When iron (II) chloride and potassium carbonate react, they form iron (II) carbonate and potassium chloride. Iron (II) carbonate is insoluble in water and appears as a greenish precipitate. Potassium chloride remains in solution.