Silver chloride turns gray in sunlight due to the formation of elemental silver. When exposed to light, silver chloride reacts with UV radiation to decompose into silver metal and chlorine gas. The silver metal that is produced is responsible for the gray coloration observed.
When silver chloride is exposed to sunlight, it undergoes a decomposition reaction to form silver metal and chlorine gas. This reaction is a photochemical reaction, meaning that it is initiated by light.
The decomposition of silver chloride is catalyzed by light. When exposed to light, silver chloride decomposes into silver metal and chlorine gas.
Silver chloride changes from white to gray or purple when exposed to sunlight, due to the decomposition of silver chloride into elemental silver and chlorine gas. This is a photochemical reaction, where light energy initiates the 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.
Silver chloride turns grey in sunlight because of a photochemical reaction that converts the silver chloride into metallic silver. This reaction is known as photo-reduction, where the sunlight provides the energy to break down the chemical bonds in the silver chloride and reduce the silver ions back into metallic silver.
Silver chloride turns gray in sunlight due to the formation of elemental silver. When exposed to light, silver chloride reacts with UV radiation to decompose into silver metal and chlorine gas. The silver metal that is produced is responsible for the gray coloration observed.
When silver chloride is exposed to sunlight, it undergoes a decomposition reaction to form silver metal and chlorine gas. This reaction is a photochemical reaction, meaning that it is initiated by light.
This is a photochemical reaction of decomposition: silver (black) is released.
The decomposition of silver chloride is catalyzed by light. When exposed to light, silver chloride decomposes into silver metal and chlorine gas.
Silver chloride changes from white to gray or purple when exposed to sunlight, due to the decomposition of silver chloride into elemental silver and chlorine gas. This is a photochemical reaction, where light energy initiates the 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 decomposition reaction of silver oxide (Ag2O) is: 2Ag2O(s) ⟶ 4Ag(s) + O2(g)
The correct equation for the decomposition of silver chloride is: 2AgCl(s) -> 2Ag(s) + Cl2(g)
When cadmium chloride is mixed with silver chloride, a double displacement reaction occurs, leading to the formation of cadmium chloride and silver chloride. The reaction can be represented by the chemical equation: CdCl2 + 2AgCl -> CdCl2 + 2AgCl.
For example the product of the reaction between sodium chloride and silver nitrate is the insoluble silver chloride.
When chloroform is heated with silver powder, a reaction occurs that leads to the formation of elemental silver and hydrogen chloride gas. This reaction is known as the dehydrochlorination of chloroform. Silver powder acts as a catalyst in this reaction, facilitating the decomposition of chloroform into its constituent elements.