calcium hydroxide
Yes, the potassium and the hydrogen will bond together, leaving the sulfate and calcium.
Aqueous ammonia is ammonium hydroxide NH4OH. When it is added to limewater which is actually calcium hydroxide Ca(OH)2 there will be no reaction.
Those two compounds do NOT react at all.
Alkaline. Like Calcium Hydroxide, Potassium Hydroxide, etc.
No, each soluble hydroxide (sodium, potassium, magnesium, calcium, barium etc.) are as strong as all of the SAME kind of hydroxide anions (OH-).Only the solubility differences determine the concentration of OH- ions, but their 'strength' is ALL the SAME.Really hydroxide is the strongest base in water solution.Sodium, potassium, magnesium, calcium and barium hydroxides are actually (basic) SALTS of the same hydroxide anions! The cations are all neutral in water.
sodium hydroxide, quicklime or Calcium Oxide, Slaked lime or calcium hydroxide, Potassium Hydroxide or caustic potash or lye. Sodium Carbonate; potassium carbonate, rubidium oxide, ammonia etc.
no
yes
Yes, the potassium and the hydrogen will bond together, leaving the sulfate and calcium.
Calcium Hydroxide is Ca(OH)2 and potassium phosphate is K3PO4. So calcium hydroxide has 5 atoms and potassium phosphate has 8 atoms. So potassium phosphate has the most atoms.
Calcium Hydroxide & Ammonia Solution & Sodium Hydroxide. Are the Common Alkalis you find in a Lab
it is potassium hydroxide plus calium equals potassium calcium n
Absolutely not. There is no sodium in that equation whatsoever.
There are sodium hydroxide, strontium hydroxide, magnesium hydroxide, potassium hydroxide, calcium hydroxide and more.
potassium hydroxide - in car batteries calcium hydroxide - in making mortar
They all have a hydroxide. This means they are alkaline (bases)
If, by "base", you mean an alkaline substance, then some examples of bases are the hydroxides (sodium hydroxide, potassium hydroxide, calcium hydroxide, etc.) and ammonia. Bases are often subcategorized as Lewis bases (substances that donate electrons, such as hydroxides) and Bronsted-Lowry bases (substances that accept protons, such as ammonia).