For solutions where there is only one hydrogen atom per molecule (HCl) N is the same as molarity (M). It differs only when there is more than one hydrogen atom per molecule.
(1000 mL)*0.01n / 12n = 0.83 mL concentrated Hydrochloric acid (12M, 35% HCl) to be added in 1000 mL distilled water.
The normality is 10,8.
1 part of concentrated HNO3 by volume3 part of concentrated HCl by volume
7.3gm
No it's a concentrated STRONG acid
(1000 mL)*0.01n / 12n = 0.83 mL concentrated Hydrochloric acid (12M, 35% HCl) to be added in 1000 mL distilled water.
The normality is 10,8.
1 part of concentrated HNO3 by volume3 part of concentrated HCl by volume
Concentrated HCl is typically 36.5% industrially. It is thus almost exactly 10 Molar.
concentrated abbv.
7.3gm
No it's a concentrated STRONG acid
Concentrated HCl is typically 12M (or 12N), and it is prepared by diluting it in 1 part to 5 parts water. (ie: 100ml to 500 ml). In other words, using the conservation of volume equation M1V1 = M2V2 , where M = concentration and V = volume.
Concentrated mixture of HCl and HNO3
1 m HCl is not more reactive than 4m HCl, but 4m HCl is more concentrated.
3M is half as concentrated as 6M
(12 M HCl )(X ml) = (1.50 M HCl )(4.00 L HCl ) 12X = 6 X = 0.50 Liters ( which you add to 3.5 Liters water )