Write the ionic and net ionic equations and it turns out there is no reaction.
Ca^2+(aq) + 2OH^-(aq) + 2NH4^+(aq) + SO4^2-(aq) ==> Ca^2+(aq) + SO4^2-(aq) + 2NH4^+(aq) + 2OH^-(aq) ... ionic equation.
NOTE: all species are soluble, therefore NO REACTION
yup it makes ammonia
I give an example for ammonium salt ....hmm.... lets just take ammonium chloride as an example . How about alkali ? I take calcium hydroxide as an example for alkali . Calcium hydroxide is formed when calcium oxide reacts with water whereas ammonium chloride is formed when hydrochloric acid reacts with ammonia solution . Calcium hydroxide (alkali) + ammonium chloride (ammonium salt) --> calcium chloride + carbon dioxide + water .
Calcium hydroxide and ammonium sulfate should not be mixed together because they can react to form calcium sulfate, ammonia, and water. This reaction can release ammonia gas, which is harmful if inhaled, and can cause irritation. It's important to follow proper chemical safety protocols and avoid mixing these substances together.
I'm not the best at chemistry just thought i would try to help. anyways I'm pretty sure its to do with how ammonia hydroxide cant break down the calcium for it to react. Full marks for trying. However, permit me to supply something a bit closer to the mark. ===================== I do not think the questioner has that question right. Ammonium hydroxide would react strongly with calcium, which is a reactive metal that bubbles hydrogen in contact with water. If you put some calcium metal in with ammonium hydroxide, it would immediately give off bubbles of hydrogen, and produce calcium hydroxide, releasing ammonia gas. I suppose that the question you really want to ask has something to do with why a dilute calcium hydroxide does not release ammonia from ammonium compounds. If that is what you want to know, the answer might be something like that calcium hydroxide is a weak base, too weak to displace the ammonium and produce ammonium hydroxide. I have my doubts though; that does not make much sense. I think you had better put more preparation into your homework. You cannot get anywhere in chemistry without taking trouble to understand it.
D. Ammonia is a weak electrolyte because it only partially ionizes in water to form ammonium ions and hydroxide ions, resulting in a low concentration of ions in solution compared to strong electrolytes like sodium hydroxide, potassium hydroxide, and calcium hydroxide.
When aqueous ammonia is added to lime water, a white precipitate of calcium hydroxide is formed as the ammonia reacts with the calcium hydroxide present in the lime water. This reaction can be represented as: Ca(OH)2 + 2NH3 → Ca(NH2)2 + 2H2O.
Laboratory preparation of ammonia or NH3 requires using ammonium chloride and calcium hydroxide. The reaction equation is 2NH4Cl plus CaOH2 gives the products 2NH3 plus CaCl2 plus 2H2O. The ammonium chloride and calcium hydroxide are heated for this reaction.
2NH4Cl + Ca(OH)2 >> CaCl2 + 2NH3 + 2H2O When ammonia chloride is heated with calcium hydroxide, ammonia gas is released. Ammonia gas is less dense than air so it is collected in an upside down test tube, by the downward displacement of air. The water formed is often seen as droplets on the side of the test tube. the ammonia gas causes the damp red litmus to change to blue because a solution of ammonia gas is alkaline.
Yes. Ammonium salts such as ammonium chloride will react with a strong base to yield ammonia.
for preparing ammonia gas (NH3)from ammonium chloride and calcium hydroxide in water.Reactantsammonium chloride (NH4Cl)calcium hydroxide [Ca(OH)2]Gas PreparationGently heat a mixture of ammonium chloride and calcium hydroxide in water. Collect the ammonia from the upward displacement of air in a hood.ReactionCa(OH)2 + 2NH4Cl --> 2NH3 + CaCl2 + 2H2O
Urea + Calcium hydroxide (from soda lime) → Calcium carbonate (precipitate) + Ammonia (NH3) + Water (H2O) Ammonia (NH3) + Calcium hydroxide (from soda lime) → Calcium Ammonium Carbonate (precipitate) The first step is the reaction of urea with soda lime to form calcium carbonate and ammonia. The second step is the reaction of the ammonia with soda lime to form calcium ammonium carbonate. ђՇՇקร://ฬฬฬ.๔เﻮเรՇ๏гє24.ς๏๓/гє๔เг/394659/ςץคภ๏ค๓คг
To convert ammonium nitrate to anhydrous ammonia, you need to heat the ammonium nitrate to a high temperature (above 170°C) in the presence of a catalyst such as activated carbon. This process will cause the ammonium nitrate to decompose into nitrous oxide and water vapor, leaving behind anhydrous ammonia as a gaseous product. The ammonia gas can then be collected and condensed for use.