Bromide: Ag+ + Br- = AgBr which is a cream precipitate
Chloride: Ag+ + Cl- = Ag Cl which is a white precipitate
Iodide: Ag+ + I- = AgI which is a yellow precipitate
Potassium iodide + silver nitrate --> Silver iodide and potassium nitrate The chemical equation is: K+I- (aq) + Ag+[NO3]- (aq) --> AgI (s) + K+[NO3]- (aq)
Silver nitrate + Potassium iodide ----> Silver iodide + Potassium nitrate AgNO3 + KI ----> AgI + KNO3
Because even though silver halides are way more photosensitive, silver nitrate is a bit, and storing in a bottle which lets the light pass through freely would affect it shelf life.
If the copper nitrate formed is copper (I) nitrate, the equation balances with one atom of each metal and one formula weight of each nitrate. If the copper nitrate formed is copper (II) nitrate, the balanced equation is: 2 AgNO3 + Cu -> 2 Ag + Cu(NO3)2.
It would produce Silver and a blue solid called Copper Nitrate (Cu(NO3)2). It is caused by a replacement reaction where Copper replaced Silver in Copper Nitrate. The equation goes like this: Cu + Ag(NO3)2 → Ag + Cu(NO3)2
in:chemestry
One balanced equation for the reaction between elemental copper and silver nitrate is Cu + AgNO3 -> CuNO3 + Ag.
No reaction
Decomposition of silver halides under light irradiation.
Silver nitrate + Potassium iodide ----> Silver iodide + Potassium nitrate AgNO3 + KI ----> AgI + KNO3
Potassium nitrate is too stable and so is silver for these two species to react. There is thus no balanced equation.
Potassium iodide + silver nitrate --> Silver iodide and potassium nitrate The chemical equation is: K+I- (aq) + Ag+[NO3]- (aq) --> AgI (s) + K+[NO3]- (aq)
Silver nitrate + Potassium iodide ----> Silver iodide + Potassium nitrate AgNO3 + KI ----> AgI + KNO3
meep
Al + AgNO3
No Reaction
Because even though silver halides are way more photosensitive, silver nitrate is a bit, and storing in a bottle which lets the light pass through freely would affect it shelf life.