No, they are not. Silver is a shiny, lustrous, bright, silvery-white metal which is
very common for making ornaments and is used in solar cells also. It is represented by Ag.
Silver Chloride is a rigid, white coloured compound made from siver and chlorine. It is represented by AgCl.
To calculate the mass of silver chloride needed to plate 285mg of pure silver, you can start by determining the mass of silver in the silver chloride. Since silver chloride contains 75.27% silver, the mass of silver in the silver chloride is 0.7527 * mass of silver chloride. Once you have the mass of silver in the silver chloride, you can set up a ratio to find the mass of silver chloride needed to plate 285mg of pure silver.
Silver chloride can be made by combining silver nitrate with sodium chloride. This will result in a white precipitate of silver chloride forming in the solution. Alternatively, silver chloride can also be made by reacting hydrochloric acid with silver nitrate.
Silver(I) chloride, although it is typically just called silver chloride, because +1 is silver's only valence state.
The precipitate formed from silver nitrate and ammonium chloride is silver chloride. This reaction occurs because silver chloride is insoluble in water.
The decomposition of silver chloride is catalyzed by light. When exposed to light, silver chloride decomposes into silver metal and chlorine gas.
The correct name for AgCl is silver chloride. Its IUPAC name is chlorosilver. Other names for silver chloride are cerargyrite, chlorargyrite, and horn silver.
To calculate the mass of silver chloride needed to plate 285mg of pure silver, you can start by determining the mass of silver in the silver chloride. Since silver chloride contains 75.27% silver, the mass of silver in the silver chloride is 0.7527 * mass of silver chloride. Once you have the mass of silver in the silver chloride, you can set up a ratio to find the mass of silver chloride needed to plate 285mg of pure silver.
Silver chloride can be made by combining silver nitrate with sodium chloride. This will result in a white precipitate of silver chloride forming in the solution. Alternatively, silver chloride can also be made by reacting hydrochloric acid with silver nitrate.
Silver(I) chloride, although it is typically just called silver chloride, because +1 is silver's only valence state.
Silver chloride is not soluble in water.
The precipitate formed from silver nitrate and ammonium chloride is silver chloride. This reaction occurs because silver chloride is insoluble in water.
A white solid called silver chloride is formed when silver nitrate is added to a solution of cobalt chloride. This reaction is a double displacement reaction where the silver ions from silver nitrate replace the chloride ions from cobalt chloride to form the insoluble silver chloride precipitate.
Since both chloride anions and nitrate anions have a charge of -1, there will be the same number of moles of silver chloride produced as the moles of silver nitrate reacted. (Since both silver nitrate and silver chloride are ionic compounds, it would be preferable to call their "moles" "formula units" instead.)
The decomposition of silver chloride is catalyzed by light. When exposed to light, silver chloride decomposes into silver metal and chlorine gas.
When potassium chloride and silver acetate react, a double displacement reaction occurs. The potassium from potassium acetate and silver from silver chloride swap partners to form silver chloride and potassium acetate. Silver chloride is insoluble and precipitates out of the solution.
The silver nitrate solution (AgNO3) provides the silver in silver chloride.
When silver nitrate reacts with sodium chloride, silver chloride is formed according to the equation: AgNO3 + NaCl -> AgCl + NaNO3. The molar ratio of silver nitrate to silver chloride is 1:1. Therefore, 100 g of silver nitrate will produce 143.32 g of silver chloride.