When chlorine is added to silver nitrate, it forms silver chloride precipitate, as chlorine replaces the nitrate ion. Similarly, when chlorine is added to potassium chloride, no chemical reaction occurs.
The balanced equation for silver plus potassium nitrate is Ag + KNO3 -> AgNO3 + K. It shows that silver reacts with potassium nitrate to form silver nitrate and potassium.
When silver nitrate is titrated against potassium chloride, a white precipitate of silver chloride is formed due to the reaction between silver ions from silver nitrate and chloride ions from potassium chloride. This reaction can be used to determine the concentration of chloride ions in a solution.
The reaction between silver nitrate and potassium iodide forms silver iodide precipitate and potassium nitrate. This reaction is a double displacement reaction where the silver ions from silver nitrate switch places with the potassium ions in potassium iodide.
The molecular equation for the reaction between silver nitrate (AgNO3) and potassium iodide (KI) is: AgNO3 + KI β AgI + KNO3. This reaction forms silver iodide (AgI) and potassium nitrate (KNO3).
Silver iodide (AgI), a precipitate insoluble in water, don't react with potassium nitrate.
When chlorine is added to silver nitrate, it forms silver chloride precipitate, as chlorine replaces the nitrate ion. Similarly, when chlorine is added to potassium chloride, no chemical reaction occurs.
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The balanced equation for silver plus potassium nitrate is Ag + KNO3 -> AgNO3 + K. It shows that silver reacts with potassium nitrate to form silver nitrate and potassium.
When silver nitrate is titrated against potassium chloride, a white precipitate of silver chloride is formed due to the reaction between silver ions from silver nitrate and chloride ions from potassium chloride. This reaction can be used to determine the concentration of chloride ions in a solution.
The reaction between silver nitrate and potassium iodide forms silver iodide precipitate and potassium nitrate. This reaction is a double displacement reaction where the silver ions from silver nitrate switch places with the potassium ions in potassium iodide.
The molecular equation for the reaction between silver nitrate (AgNO3) and potassium iodide (KI) is: AgNO3 + KI β AgI + KNO3. This reaction forms silver iodide (AgI) and potassium nitrate (KNO3).
Silver does not react with potassium nitrate under normal conditions. Potassium nitrate is a relatively stable compound that is typically used as a fertilizer or in fireworks, and it does not react with silver.
The symbol equation for silver nitrate solution and potassium iodide is: AgNO3(aq) + KI(aq) -> AgI(s) + KNO3(aq).
A white precipitate of silver iodide forms due to the reaction between silver ions and iodide ions, leaving potassium nitrate in solution. This reaction is a double displacement reaction and is used as a test for iodide ions.
Silver phosphate, Ag3PO4 precipitated in potassium nitrate solution (K+ and NO3-)
The precipitate formed from the reaction between silver nitrate and potassium carbonate is silver carbonate (Ag2CO3), which is a white solid.