water
SeO2 (s) + 2KOH(aq) > K2SeO3(aq) +H2O(l) SeO2(s)+2KOH(aq)→K2SeO3(aq)+H2O(l)
The end product of cellular respiration, Atp - Adenosine tri-phosphate, stores energy in the form of a phosphate - phosphate - phosphate bond.
Yes, by titration with Potassium hydroxide, in comparison with the same non-rancid product (standard analytical tools in dairy and fat-food industry (French fries, chips and else)
Citric acid and sodium hydroxide combined makes sodium citrate.
If a piece of Potassium is dropped into a beaker of water it whizzes around on the surface of the water. The reaction is so vigorous that the heat of it causes the Potassium metal to metal. It 'fizzes' and the heat generated can often cause the Hydrogen, that is produced by the reaction, to ignite with a lilac colour flame. Larger pieces of Potassium may even explode due to the vigor of the reaction. 2K + 2H2O ----> 2KOH + H2 (gas)
98g of phosphoric acid require 120g of sodium hydroxide to produce sodium phosphate so 150g phosphoric acid will require = 120/98x150= 183.67g sodium hydroxide.
Potassium hydroxide is not a natural product.
You can get DAP (Di-Ammonium Phosphate) or Map (Mono-Ammonium phosphate), depending on how they were reacted.
Potassium makes its oxide by direct reaction with oxygen molecules (although the principal product is potassium superoxide). Potassium reacts with water to form its hydroxide.
Triple Superphosphate is manufactured by reacting finely ground phosphate rock with Phosphoric Acid. It can also be manufactured using bi-product sludge from the Phosphoric Acid Industry.
A complex,potassium tri oxalate,.........
General Formula for this type of reaction is ACID + BASE ---> SALT + WATER H3PO4 + KOH the base is potassium:K(charge+1) the acid is phosphate(charge-3) -to neutralize the -3 charge you need a +3 charge therefor K must equal 3K the correct formula is K3PO4 the left behind H will form with OH and form H20 H3PO4 + KOH ----> K3PO4 + H2O..... unbalanced H3PO4 + 3KOH ---> K3PO4 + 3H20 ...... BALANCED Above reaction is the net reaction product. Reaction will complete in three steps. 1. First Potassium di hydrogen phosphate will be produced 2. Further neutralization will take place then to form Di Potassium Hydrogen Phosphate 3. Then, finally Potassium Phosphate Tri Basic will be formed. However the solubility of Potassium Di Hydrogen Phosphate in water is far better than of Potassium Phosphate Tri Basic.
H3PO4Is phosphoric acid, a strong acid. This would have to react with a strong base, such as NaOH, to produce a salt.3NaOH + H3PO4 --> Na3PO4 + 3H2OThe salt produced is sodium phosphate.
3NaOH + H3PO4 -> Na3PO4 +3H2O The usual salt, sodium phosphate, and water.
potassium chloride (KCl)
Water.
H3PO4(aq)+3NaOH(aq)-->Na3PO4(aq)+3H2O(l)