Lead and silver nitrate will react to produce silver and lead nitrate.
Pb(s) + AgNO3(aq) --> Ag(s) + Pb(NO3)2(aq)
We can know this by referring to an activity (also called reactivity) series for metals, which lists metals in a vertical list such that any metal will replace any metal below it on the list. Lead is above silver, therefore, the lead will replace the silver in the silver nitrate compound. For an activity series from Wikipedia, refer to the related link below.
A displacement reaction, in which the copper dissolves to form copper nitrate and replaces silver ions in the original silver nitrate, reducing the silver ions to metallic silver.
anytime any elements/mixtures are placed together it is a chemical change... a physical change is if the silver nitrate is by itself and changed it physical appearance but is the same element (like if a human changes there clothes)
A single-displacement reaction occurs where copper replaces silver in the silver nitrate solution to form copper(II) nitrate and solid silver. The blue color of the copper(II) nitrate solution turns a greenish-blue color due to the presence of excess copper ions.
When an alkyl halide reacts with silver nitrate, a substitution reaction takes place where the halide ion is displaced by the silver ion to form a silver halide precipitate. The alkyl group remains unchanged in the reaction.
Silver is disolved in the acid as Silver Nitrate. Silver + Nitric Acid -> Silver Nitrate + Hydrogen
A displacement reaction, in which the copper dissolves to form copper nitrate and replaces silver ions in the original silver nitrate, reducing the silver ions to metallic silver.
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 aluminum chloride and silver nitrate are mixed, a double displacement reaction takes place where aluminum nitrate and silver chloride are formed. Silver chloride is a white precipitate that can be observed in the reaction mixture.
When silver nitrate reacts with hydrochloric acid, a chemical reaction known as a double displacement reaction takes place. The silver cation from the silver nitrate exchanges with the hydrogen cation from the hydrochloric acid to form silver chloride, which is a white precipitate, and nitric acid.
The evidence that a chemical reaction took place when silver nitrate was mixed with ammonium chloride is the formation of a white precipitate of silver chloride. This indicates that a chemical reaction occurred between the silver ions from silver nitrate and the chloride ions from ammonium chloride, resulting in the insoluble silver chloride. Additionally, the solution may turn cloudy or there may be a color change, further supporting the occurrence of a chemical reaction.
When silver nitrate, a soluble solution, is mixed with a carbonate solution a precipitation reaction (double replacement reaction) takes place forming nitrate ions and the insoluble solid silver carbonate.
A double displacement reaction takes place, producing Silver Chloride and Nitric acid
anytime any elements/mixtures are placed together it is a chemical change... a physical change is if the silver nitrate is by itself and changed it physical appearance but is the same element (like if a human changes there clothes)
The ionic equation for the reaction between sodium carbonate (Na2CO3) and silver nitrate (AgNO3) is: 2Ag+ + CO3^2- → Ag2CO3. This equation shows the formation of silver carbonate from the reaction between silver ions and carbonate ions.
A single-displacement reaction occurs where copper replaces silver in the silver nitrate solution to form copper(II) nitrate and solid silver. The blue color of the copper(II) nitrate solution turns a greenish-blue color due to the presence of excess copper ions.
They form Silver Iodide and Poassium nitrate. Silver Iodide is a yellow coloured compound which forms precipitate in the solution. Potassium Nitrate remains dissolved. These reactions only take place in solution. When both reactants are in solid state then reaction may not occur, or it is too slow to be observed.
When an alkyl halide reacts with silver nitrate, a substitution reaction takes place where the halide ion is displaced by the silver ion to form a silver halide precipitate. The alkyl group remains unchanged in the reaction.