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You need to know the volume of the weak acid being titrated so you can find how many moles of base are needed to match that of the acid.
A solution of sulfuric acid will have the same properties as any other liquid. It will have a definite volume but its shape will be that of its container.
For 1 L solution 794,5 mL H2O are needed.
The concentration of a solution is moles/volume. 2.943g of pure sulphuric acid H2S4 is approximately 15 moles, and 15/150 cm3 is 10.
1 mole sulfuric acid for 1 mole calcium chloride
salt
300 ml
You need to know the volume of the weak acid being titrated so you can find how many moles of base are needed to match that of the acid.
The weak acid becomes in unionized form
A solution of sulfuric acid will have the same properties as any other liquid. It will have a definite volume but its shape will be that of its container.
For 1 L solution 794,5 mL H2O are needed.
Volume mL= 32.76 mL x 0.0215 M/ 0.03455 = 20.386 mL calcium hydroxide solution.
It will not be accurate, as mixing 1 gallon of acid with one of water will not make 2 gallons. But approximately 7714 gallons of 100% acid would be needed to make a 30% volume/volume acid solution. Your problem now is that very few liquid acids come as 100%, and most that do are very dangerous around water.
M = n ÷ V M-Molarity (mol/l) n- moles V- volume in liters. Volume cannot be expressed in grams....
You need 256 litres.
The answer is 20,15 mL.
The solution could be neutral, acidic or basic depending on the concentration or the volume of the acid or alkali used.