The answer is 12,831 g KOH.
because KOH is hygroscopic
The elements found in KOH are potassium, oxygen and hydrogen.
An 11 M KOH solution indicates there are 11 moles of KOH per liter of water. 1 mole of KOH has a volume of 27.4 mL, so to account for the added volume it is necessary to add 15.75 moles of KOH per liter of water, or 884 grams per liter.
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.
how to prepare .05M glutaraldhyde solution molecular weight is 100.12
KNO3+H2O
34h 05m
The conversion between m and cm are given .On finding the relation we get as follows . 1 m =100 cm So, 5 m =500 cm.
Q + N = 36;.25Q + .05N = 5.20;.25(36-N) +.05N = 5.20;9- .20N = 5.20;3.8 = .20N;N = 19 and Q = 17
K+ and OH- is KOH -----------
This is a simple algebra question:d + n = 31.1d + .05n = 2.65Subsituting in for "d" using "n" we have:d = 31 - n3.1 - .1n + .05n = 2.65-0.05n = -0.45Solve for n:n = 9d + 9 = 31d = 22Thus, there are 9 nickels and 22 dimes.
Molar mass of KOH = 39.1+16.0+1.0 = 56.1Amount of KOH = mass of sample / molar mass = 32/56.1 = 0.570mol
Potassium, hydrogen, and oxygen will form a compound called potassium hydroxide, KOH.
yes, almost total dissociation in water, the more OH negative hydroxide ions in solution, the more basic the solution is.
Koh Samui is in Thailand
KOH is potassium hydroxide.