When an excess of chlorine reacts with ammonia, it forms a series of compounds known as chloramines, which are disinfectants commonly used in water treatment. These chloramines are less reactive than free chlorine and help to maintain a residual disinfectant in the water supply.
When ammonia reacts with an excess of chlorine, it forms white ammonium chloride crystals and nitrogen trichloride gas as products. The reaction is exothermic and can release heat rapidly. Additionally, nitrogen gas may also be produced depending on the specific conditions of the reaction.
The ring formed when ammonia reacts with hydrogen bromide is called ammonium bromide.
When sodium thiosulfate reacts with chlorine water, it forms sodium sulfate, sodium chloride, and sulfuric acid. This reaction is commonly used in analytical chemistry to remove excess chlorine from solutions or to neutralize chlorine in wastewater treatment processes.
When ammonia reacts with an acid, it forms an ammonium salt. The specific salt that is produced will depend on the type of acid used in the reaction.
When Ammonia solution is added to Copper sulphate, at first a precipitate of Copper hydroxide is formed. If excess ammonia is added, finally a deep bluish solution of Tetraamine Copper(II) Sulfate is formed
When ammonia reacts with an excess of chlorine, it forms white ammonium chloride crystals and nitrogen trichloride gas as products. The reaction is exothermic and can release heat rapidly. Additionally, nitrogen gas may also be produced depending on the specific conditions of the reaction.
The ring formed when ammonia reacts with hydrogen bromide is called ammonium bromide.
When sodium thiosulfate reacts with chlorine water, it forms sodium sulfate, sodium chloride, and sulfuric acid. This reaction is commonly used in analytical chemistry to remove excess chlorine from solutions or to neutralize chlorine in wastewater treatment processes.
Elementally, it reacts most commonly with hydrogen and oxygen. But in the forms of ammonia or nitrates, it will react with most elements.
When chlorine reacts with ammonia, it forms chloramine, which is a compound that is often used as a disinfectant in water treatment. This reaction is exothermic, meaning it releases heat. It is important to handle these reactions carefully due to the potential formation of toxic byproducts.
it reacts with water. it forms OH- by reaction.
A chloride is formed as NCl3, for ex.
when bleaching powder reacts with ammonia, nitrogen gas is evolved along with calcium chloride and water. The balanced reaction is: 3CaCl(OCl)(s)+2NH3(aq) = 3CaCl2(aq)+N2(g)+3H2O(l)
When ammonia reacts with an acid, it forms an ammonium salt. The specific salt that is produced will depend on the type of acid used in the reaction.
When Ammonia solution is added to Copper sulphate, at first a precipitate of Copper hydroxide is formed. If excess ammonia is added, finally a deep bluish solution of Tetraamine Copper(II) Sulfate is formed
When iron II sulphate reacts with ammonia, it forms ferrous ammonia sulphate [Fe(NH3)2(SO4)2]. This compound is a coordination complex in which the iron atom is surrounded by ammonia molecules and sulfate ions.
When ammonia reacts with HCl, it forms ammonium chloride (NH4Cl), which is a white crystalline solid. The reaction is exothermic and releases heat. The balanced chemical equation for the reaction is: NH3 + HCl -> NH4Cl.