Potassium hydroxide + sulphuric acid = Potassium sulphate + water
Potassium-Sulphate
P.S Bob Dylan&Ashley J Williams "Ash" created potassium!
potassium sulphide and water
Potassium sulphate
H2so4+2koh=2h20+kso4
H2SO4(aq) + 2KOH(S) = K2SO4(aq) + 2H2O
Potassium hydroxide is a solid at the standard room temperature and pressure. It has a melting point around 1200 K.
Potassium hydroxide is a strong alkali and is highly soluble in water. It reacts with acids to form potassium salts. It is often used in experiments to absorb carbon dioxide present in the system.
Solid state in room temperature.
The pH remain constant.
2 K + Cl2 = 2 KClOxygen is not needed.
Potassium bromide (KBr) is a white solid formed by the reaction of potassium hydroxide and bromine.
Potassium hydroxide is a solid at the standard room temperature and pressure. It has a melting point around 1200 K.
Potassium hydroxide will bond with CO2 to form solid sodium carbonate and liquid water.
Potassium hydroxide is a strong alkali and is highly soluble in water. It reacts with acids to form potassium salts. It is often used in experiments to absorb carbon dioxide present in the system.
Solid state in room temperature.
The pH remain constant.
2 K + Cl2 = 2 KClOxygen is not needed.
There is not a lot of difference. They are both powerful bases but potassium hydroxide is more expensive. Sodium hydroxide is manufacture by electrolysis of seawater. Potassium Hydroxide just does not have a cheap source of raw material as seawater!
when these two are added, it forms double displacement. In result, copper (ii) hydroxide and potassium 2 sulfate is formed. pale blue solid is the product.
Ca(OH)2_ calcium hydroxide
Some bases, such as sodium and potassium hydroxides, contain hydroxide ions even in solid form. Others, such as ammonia, produce hydroxide in solution but do not contain any such ions when in pure form.
nope. OH is hydroxide which is insoluble except with a few things including potassium (K). so KOH is soluble, or aqueous.