Ma = X Mb = 0.1023M Va = 10ml Vb = 14.23ml MaVa = MbVb / 2 x(10) = (0.1023)(14.23) / 2 10x = 0.7278 x = 0.0728 M Molarity of acid is 0.0728M
8N
h30 is what comes after h20 ----
In order to determine normality, you have to examine the reaction that produces the sulfuric acid, since normaility is molarity multiplied by proton exchange.
There is no equivalence. One is an hydrocarbon, the other is a mineral acid.
.150 M is the molarity of the solution, which is the number of moles per liter. So all you need to do is multiply the molarity by the number of liters. So .150 moles/liter x .550 L = .0825 moles
8N
h30 is what comes after h20 ----
In order to determine normality, you have to examine the reaction that produces the sulfuric acid, since normaility is molarity multiplied by proton exchange.
There is no equivalence. One is an hydrocarbon, the other is a mineral acid.
.150 M is the molarity of the solution, which is the number of moles per liter. So all you need to do is multiply the molarity by the number of liters. So .150 moles/liter x .550 L = .0825 moles
18 400 000 moles. it is also 1 million times stronger than sulfuric acid
0.408 M
M = n ÷ V M-Molarity (mol/l) n- moles V- volume in liters. Volume cannot be expressed in grams....
Molarity = moles of solute/volume of solution 0.324 M H2SO4 = moles H2SO4/500 ml 162 millimoles, or, more precisely to the question 0.162 moles H2SO4
NaCl doesn't neutralize sulfuric acid.
Sulfuric acid H2SO4 will give away 2 protons H+ for this reason its normality is 2 times its molarity. so for H2SO4 M = 2N For HCl M= 1N because HCl has only one proton H+ H3PO4 for example has 3N = M so for your case, 6M = 2N and N= 6/2 = 3.
The pH value of any acidic solution depends on the strength of the acid in the particular solution. In this instance, a dilute sulfuric acid solution shows a higher value of pH whereas the concentrated acid shows a very low value.