There will be no reaction so only a mixture will be formed
When silver nitrate is mixed with a starch and water solution, a complex forms known as the silver-starch complex. This results in a blue-black coloration, which can be used as a chemical indicator for the presence of iodide ions in the solution.
Only the Ag+ and the Cl- ions will react to precipitated AgCl;Na+ and NO3- are tribuned (= stay unchanged in solution).Ag+ + Cl- --> (AgCl)s
the reaction is as follows-AgNO3 + KCl ----->AgCl +KNO3here the silver nitrate(AgNO3) reacts with potassium chloride(KCl) to form potassium nitrate(KNO3) and insoluble AgCl.
If you were to drip a little bit of Silver nitrate solution over a piece of zinc, you would be able to see rapid growth of green "crystals". This process is known as Single Displacement Reaction, when an element replaces another in a compund, forming a new compound. Often invovles a metal replacing another metal If you were to drip a little bit of Silver nitrate solution over a piece of zinc, you would be able to see rapid growth of green "crystals". This process is known as Single Displacement Reaction, when an element replaces another in a compund, forming a new compound. Often invovles a metal replacing another metal
Mixing hydrogen peroxide with ammonium nitrate can cause a rapid chemical reaction, producing nitrogen gas, water, and oxygen as byproducts. This reaction is exothermic, meaning it releases heat and can potentially lead to an explosion if not properly contained. It is extremely dangerous and should never be attempted.
you die
nothing
When you mix lead with silver nitrate, a solid precipitate of lead(II) nitrate forms while silver metal is produced as a result of displacement reaction, since lead is more reactive than silver. The balanced chemical equation is: Pb + 2AgNO3 -> Pb(NO3)2 + 2Ag.
When you mix silver nitrate with sugar, a chemical reaction takes place that results in a black precipitate of silver metal forming. This reaction is a reducing sugar reaction, where the sugar acts as a reducing agent to convert the silver ion in silver nitrate into silver metal.
When you mix agar and dissolved silver nitrate, the silver ions in the silver nitrate solution can bind to the agar molecules, forming a complex. This complexation may result in the precipitation of silver agar particles, depending on the concentration of silver ions and the pH of the solution.
Lead nitrate is obtained.
When aqueous bromide and aqueous silver nitrate mix, a white precipitate of silver bromide is formed. This is a chemical reaction that involves the exchange of ions: Ag⁺ + Br⁻ → AgBr↓.
When you mix silver nitrate with a copper strip, a displacement reaction occurs. The more reactive copper displaces silver from the silver nitrate solution, forming solid silver and copper(II) nitrate solution. This reaction is represented by the equation: Cu(s) + 2AgNO3(aq) → 2Ag(s) + Cu(NO3)2(aq).
harish + sheshardri = chochalte
When silver nitrate is mixed with a starch and water solution, a complex forms known as the silver-starch complex. This results in a blue-black coloration, which can be used as a chemical indicator for the presence of iodide ions in the solution.
When solutions of lead nitrate and potassium iodide are mixed, a yellow precipitate of lead iodide is formed. This reaction is a double displacement reaction where the lead from lead nitrate reacts with the iodide from potassium iodide to form the insoluble lead iodide.
the equation when you mix silver nitrate and ammonium chloride is given as follows.It forms the whitish insoluble silver chloride AgCl.The precipiate is white in color.Its a double displacemeent reaction.NH4Cl + AgNO3 ------- AgCl ( s ) + NH4NO3