When silver nitrate reacts with hydrochloric acid, a white precipitate of silver chloride is formed. Silver chloride is insoluble in water and appears as a white color.
Lead iodide (PbI2) is a compound consisting of lead and iodine, whereas silver chloride (AgCl) is a compound made up of silver and chlorine. Lead iodide is yellow in color and is more soluble in water compared to silver chloride, which is white in color and has low solubility in water. Lead iodide has different chemical and physical properties compared to silver chloride, due to the different elements it contains.
Silver chloride is a colorless aqueous solution.Added:AgCl is a quit insoluble, white precipitate, turning grayish black by reduction in visible light (photosensible reaction).AgCl will form a colourless, soluble Ag(NH3)2+ complex when dilute ammonia is added.
Silver chloride turns a gray or violet color when exposed to sunlight due to the formation of elemental silver.
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.
Silver chloride precipitate is white in color.
The precipitate formed from the reaction between silver nitrate and potassium chloride is white in color. This precipitate is silver chloride, which is insoluble in water and forms when the silver ions from silver nitrate react with chloride ions from potassium chloride.
When silver nitrate reacts with hydrochloric acid, a white precipitate of silver chloride is formed. Silver chloride is insoluble in water and appears as a white color.
Lead iodide (PbI2) is a compound consisting of lead and iodine, whereas silver chloride (AgCl) is a compound made up of silver and chlorine. Lead iodide is yellow in color and is more soluble in water compared to silver chloride, which is white in color and has low solubility in water. Lead iodide has different chemical and physical properties compared to silver chloride, due to the different elements it contains.
Silver chloride is a colorless aqueous solution.Added:AgCl is a quit insoluble, white precipitate, turning grayish black by reduction in visible light (photosensible reaction).AgCl will form a colourless, soluble Ag(NH3)2+ complex when dilute ammonia is added.
Silver chloride turns a gray or violet color when exposed to sunlight due to the formation of elemental silver.
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.
Silver chloride undergoes a photochemical decomposition reaction in the presence of light, breaking down into elemental silver and chlorine gas. This reaction can be used in photography to develop images on film.
The correct name for AgCl is silver chloride. Its IUPAC name is chlorosilver. Other names for silver chloride are cerargyrite, chlorargyrite, and horn silver.
The cholorided part will have a grey/purple to it. Some people describe it as a charcoal color.
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.
The correct name for the compound AgCl is silver chloride.