In an acid-base titration problem, the formula to use is: MaVa = MbVb, where the molarity of the acid times its volume equals the molarity of the base times its volume.
Here, we have:
Ma(10.00mL) = (0.135M)(31.25mL)
Solving for Ma = 4.22M.mL / 10.00mL = 0.422M
(Note: This is only valid for monoprotic acid with monoprotic bases only, as in this case. If it were titrated with 0.135M carbonate (CO32-) the findings need to be doubled.)
The usual primary standard for acid-base titration is sulfuric acid. Nitric acid tends to lose NO2 by volatilization and HCl is also more volatile.
By diluting the concentration of nitric acid (and the concentration of H+).
The Enthalpy of neutralization of all strong acids are almost the same. It is between -58 to -59 kilojoules per mole.
No, because one of the products is H2CO3 (an acid)
Nitric acid (followed by a grade or concentration description)
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
The usual primary standard for acid-base titration is sulfuric acid. Nitric acid tends to lose NO2 by volatilization and HCl is also more volatile.
By diluting the concentration of nitric acid (and the concentration of H+).
Examples: - concentrated solution of sulfuric acid - concentrated solution of nitric acid - concentrated solution of ethanol - concentrated solution of sugar (syrup) - concentrated solution of table salt
Whenever an acid reacts with an alkali, a salt and water are formed.This is a neutralization reactioni.e. acid + alkali --> salt +waterIn this case, nitric acid + potassium hydroxide --> potassium nitrate + waterHNO3(aq) + KOH(aq) --> KNO3(aq) + H2O(l)Hence, a solution of potassium nitrate is formed.
The Enthalpy of neutralization of all strong acids are almost the same. It is between -58 to -59 kilojoules per mole.
No, because one of the products is H2CO3 (an acid)
Nitric acid (followed by a grade or concentration description)
Dye and nitric acid are different. A dye is a colored substance that has an affinity to the substrate to which it is being applied. The dye is generally applied in an aqueous solution, and requires a mordant to improve the fastness of the dye on the fiber.
16 molar.
by leaching the solution with nitric acid
koh+ hno3>h2o+kno3