Precipitate of AgCl and NH4NO3 aqueous
AgNO3 + NH4Cl >> AgCl + NH4NO3
When aqueous AgNO3 and NH3 are mixed, they react to form a white precipitate of silver(I) oxide (Ag2O), not a muddy brown precipitate. Silver oxide is insoluble in water and appears as a white solid. Any muddy appearance could be due to impurities or other reactions occurring in the solution.
The molecular formula for ammonical silver nitrate is AgNO3(NH3)2.
The chemical formula for silver nitrate is AgNO3.
the complete chemical equation for KI AgNO3 and HNO3.the reaction between KI and Ag NO3 can take place you asked a wrong question.AgNO3 + KI = AgI + KNO3Reaction type: double replacement
When sulfur dioxide (SO2) and ammonia (NH3) mix, they can react to form ammonium bisulfite ((NH4)HSO3) and/or ammonium sulfite ((NH4)2SO3). These reactions typically occur in the presence of water as a medium. The products formed depend on the proportions of SO2 and NH3, as well as the reaction conditions.
When aqueous AgNO3 and NH3 are mixed, they react to form a white precipitate of silver(I) oxide (Ag2O), not a muddy brown precipitate. Silver oxide is insoluble in water and appears as a white solid. Any muddy appearance could be due to impurities or other reactions occurring in the solution.
The molecular formula for ammonical silver nitrate is AgNO3(NH3)2.
When you mix FeCl3 and KSCN, a blood red color forms due to the formation of Fe(SCN)2 complex. When AgNO3 is added to this solution, a white precipitate of AgSCN is formed, indicating the presence of thiocyanate ions in the solution.
The chemical formula for silver nitrate is AgNO3.
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the complete chemical equation for KI AgNO3 and HNO3.the reaction between KI and Ag NO3 can take place you asked a wrong question.AgNO3 + KI = AgI + KNO3Reaction type: double replacement
The chemical formula for silver nitrate is AgNO3.
When sulfur dioxide (SO2) and ammonia (NH3) mix, they can react to form ammonium bisulfite ((NH4)HSO3) and/or ammonium sulfite ((NH4)2SO3). These reactions typically occur in the presence of water as a medium. The products formed depend on the proportions of SO2 and NH3, as well as the reaction conditions.
Tollens reagent, a solution of silver nitrate (AgNO3), ammonia (NH3), and sodium hydroxide (NaOH), can be represented by the formula [Ag(NH3)2]+. To prepare Tollens reagent, silver nitrate is mixed with ammonia until the precipitate dissolves, and then sodium hydroxide is added to form the [Ag(NH3)2]+ complex ion.
what happens
To find the mass of silver in 3.4g of AgNO3, you need to consider the molar mass of AgNO3. The molar mass of AgNO3 is 169.87 g/mol. From this, you can calculate the mass of silver (Ag) in AgNO3, which is 107.87 g/mol. Therefore, the mass of silver in 3.4g of AgNO3 is (107.87/169.87) * 3.4g.
Not a formula but a chemical reaction: AgNO3 + NaCl--------AgCl + NaNO3 AgCl is a white precipitate important for gravimetric, volumetric, etc. analysis.