KOH is a strong electrolyte
No. KOH disassociates almost 100% in solution and gives these two charge ions, thus, an electrolyte. K + ( potassium ion, a cation and OH - ( hydroxide, an anion )
When in doubt, look at the reactants that produce the substance. Potassium nitrate, KNO3, is produced in solution by mixing potassium hydroxide, KOH, and nitric acid, HNO3, which are both strong electrolytes, and so is potassium nitrate. Two strong electrolytes will produce a strong electrolyte, a weak and a strong electrolyte will produce a weak electrolyte, and two weak electrolytes will produce a weak electrolyte.
K+ and OH- is KOH -----------
Molar mass of KOH = 39.1+16.0+1.0 = 56.1Amount of KOH = mass of sample / molar mass = 32/56.1 = 0.570mol
KOH is a strong electrolyte
KOH
Potassium hydroxide is a strong electrolyte.
No. KOH disassociates almost 100% in solution and gives these two charge ions, thus, an electrolyte. K + ( potassium ion, a cation and OH - ( hydroxide, an anion )
KOH is the chemical symbol for Potassium hydroxide. It can be used in the manufacturing of soft soaps, bio diesel. It can also be used as an electrolyte.
Because the electrolyte KOH used is not consumed in the reaction.
yes, almost total dissociation in water, the more OH negative hydroxide ions in solution, the more basic the solution is.
When in doubt, look at the reactants that produce the substance. Potassium nitrate, KNO3, is produced in solution by mixing potassium hydroxide, KOH, and nitric acid, HNO3, which are both strong electrolytes, and so is potassium nitrate. Two strong electrolytes will produce a strong electrolyte, a weak and a strong electrolyte will produce a weak electrolyte, and two weak electrolytes will produce a weak electrolyte.
K+ and OH- is KOH -----------
Molar mass of KOH = 39.1+16.0+1.0 = 56.1Amount of KOH = mass of sample / molar mass = 32/56.1 = 0.570mol
Its a non electrolyte.
It is an electrolyte