The equation for reaction between silver nitrate and sodium iodide in water solution is AgNO3 (aq) + NaI (aq) = NaNO3 (aq) + AgI (s).
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.
reductor (I-) + oxidant (nitric) in dilute acid solution:
3I- + 2NO3- + 4H+ --> I3-(aq) + 2NO2(g) + 2H2O(l)
The reaction is:
KBr + AgNO3 = KNO3 + AgBr
The silver bromide is insoluble in water.
It would create silver iodide and potassium nitrate, the silver nitrate would precipitate and the potassium nitrate would remain in solution
A replacement reaction yielding silver iodide and potassium nitrate.
Potassium nitrate and a precipitate of Silver iodide
Silver iodate is prcipitated out . KIO3 + AgNO3 ----> AgIO3 + KNO3
= Potassium nitrate and Silver iodide
AgNO3 + KI = AgIs(precipitated ) + KNO3
Potassium iodide turns yellow when nitric acid is dropped on it due to the formation of elemental iodine.
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.
When potassium reacts with nitric acid, it produces potassium nitrate (KNO3) and nitrogen dioxide gas (NO2). This is a redox reaction where potassium is oxidized to potassium ions while nitric acid is reduced to nitrogen dioxide gas.
Potassium iodide is a salt and will dissociate into potassium ions and iodide ions in water, so it is considered a base.
The reaction between potassium hydroxide and nitric acid produces potassium nitrate and water. The symbol equation for this reaction is: 2KOH + HNO3 → KNO3 + H2O.
Potassium iodide turns yellow when nitric acid is dropped on it due to the formation of elemental iodine.
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.
When potassium reacts with nitric acid, it produces potassium nitrate (KNO3) and nitrogen dioxide gas (NO2). This is a redox reaction where potassium is oxidized to potassium ions while nitric acid is reduced to nitrogen dioxide gas.
Potassium iodide is a salt and will dissociate into potassium ions and iodide ions in water, so it is considered a base.
The reaction between potassium hydroxide and nitric acid produces potassium nitrate and water. The symbol equation for this reaction is: 2KOH + HNO3 → KNO3 + H2O.
Potassium nitrate salt would be formed when nitric acid and potassium hydroxide are reacted together.
Potassium hydroxide is a strong base, while dilute nitric acid is a strong acid. Potassium hydroxide is alkaline, whereas dilute nitric acid is acidic. They have different chemical properties and uses in various processes.
No, kI is not an acid. It is the chemical formula for potassium iodide, which is a compound composed of potassium and iodine.
The chemical equation for the reaction between potassium iodide (KI) and hydrochloric acid (HCl) is: KI + HCl → KCl + HI Potassium iodide reacts with hydrochloric acid to form potassium chloride and hydroiodic acid.
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.
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.
Potassium hydroxide reacts with nitric acid to form potassium nitrate and water. The word equation for this reaction is: potassium hydroxide + nitric acid -> potassium nitrate + water.