hno3 + ki ---> kno2 +hi
KI or potassium iodide will be basic in solution because it is the product of KOH (a strong base) and HI (a weak acid.)
Nitrous acid in solution can be written as HNO2(aq).
To make potassium iodide, you would need to first react iodine with potassium hydroxide. This will create potassium iodate, which can then be reduced to potassium iodide using a reducing agent like sulfur dioxide or hydriodic acid.
Acid is Hydroiodic Acid (HI) and the Base (Alkali) is potassium hydroxide. Here is the reaction eq'n. HI(aq) + KOH(aq) = KI(aq) + H2O(l).
Potassium iodide is a salt and will dissociate into potassium ions and iodide ions in water, so it is considered a base.
KI or potassium iodide will be basic in solution because it is the product of KOH (a strong base) and HI (a weak acid.)
Nitrous acid in solution can be written as HNO2(aq).
To make potassium iodide, you would need to first react iodine with potassium hydroxide. This will create potassium iodate, which can then be reduced to potassium iodide using a reducing agent like sulfur dioxide or hydriodic acid.
Acid is Hydroiodic Acid (HI) and the Base (Alkali) is potassium hydroxide. Here is the reaction eq'n. HI(aq) + KOH(aq) = KI(aq) + H2O(l).
Potassium iodide is a salt and will dissociate into potassium ions and iodide ions in water, so it is considered a base.
Mixing potassium iodide with nitric acid will result in a chemical reaction that produces iodine gas and potassium nitrate. Nitric acid will oxidize the iodide ion to produce iodine gas, while the potassium will form a salt with the nitrate ion from the acid. It is important to handle nitric acid with care, as it is a strong oxidizing agent and can be corrosive.
Sodium peroxoborate is tested with sulfuric acid and potassium iodide to determine the presence of peroxides. When sodium peroxoborate reacts with sulfuric acid and potassium iodide, oxygen gas is released, causing iodine to be liberated from the potassium iodide. The presence of iodine can be observed by a color change from clear to brown or blue-black due to the formation of iodine.
Chloroform is used in the assay of potassium iodide because it forms a complex with iodine liberated from potassium iodide in presence of acid, and this complex has a pink color that can be easily detected. This color change helps in monitoring the reaction and determining the concentration of potassium iodide in the sample.
If you were to try and react potassium iodide with hydrochloride you would have the following reaction: KI + HCl - > KCl + HI Hydroiodic acid is actually quite a strong acid, so this reaction does not occur in real life.
In a water, potassium iodide, What_happens_when_you_react_potassium_iodide_with_hydrochloric_acidsolution, heat is absorbed and an endothermic reaction occurs. No physical changes.
It is not a base or acid as it is neutral and has a PH value of 7
The compound KI is commonly known as potassium iodide. It is a chemical compound made up of potassium and iodine atoms, and it is used in various applications, including medical treatments and as a nutritional supplement.