It turns grey in colour i.e., 2AgCl ------> 2Ag+Cl2
Silver chloride turns grey in sunlight because of decomposition reaction. this decomposition reaction is called photoletic decomposition. 2AgCl gives Ag + Cl2 (silver (silver) (chloride) chloride)
White silver chloride turns grey in sunlight due to a chemical reaction known as photo-reduction. When exposed to sunlight, silver chloride decomposes into silver metal and chlorine gas. This leads to the formation of gray-colored silver metal on the surface of the silver chloride.
The balanced equation for silver chloride (AgCl) reacting with sunlight to give silver (Ag) and chlorine gas (Cl2) is: 2 AgCl + sunlight -> 2 Ag + Cl2
Silver chloride turns a gray or violet color when exposed to sunlight due to the formation of elemental silver.
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 turns grey due to decomposition reaction. This decomposition reaction is called photoletic decomposition. 2AgCl gives Ag + Cl2 (silver (silver) (chloride) Chloride)
Silver chloride turns grey in sunlight because of decomposition reaction. this decomposition reaction is called photoletic decomposition. 2AgCl gives Ag + Cl2 (silver (silver) (chloride) chloride)
White silver chloride turns grey in sunlight due to a chemical reaction known as photo-reduction. When exposed to sunlight, silver chloride decomposes into silver metal and chlorine gas. This leads to the formation of gray-colored silver metal on the surface of the silver chloride.
Silver chloride is not soluble in water.
silver chloride should precipitate out.
The balanced equation for silver chloride (AgCl) reacting with sunlight to give silver (Ag) and chlorine gas (Cl2) is: 2 AgCl + sunlight -> 2 Ag + Cl2
Silver chloride turns a gray or violet color when exposed to sunlight due to the formation of elemental silver.
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 is decomposed under the action of UV radiation and air.
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 you add silver nitrate solution to a chloride solution, a white precipitate of silver chloride forms. This reaction is a chemical method for detecting the presence of chloride ions. Silver chloride is insoluble in water and forms as a solid that can be filtered out of the solution.
When barium chloride reacts with silver acetate, a white precipitate of silver chloride is formed, along with barium acetate remaining in solution. This is because silver chloride is insoluble in water, while barium acetate is soluble.