Using molarities and concentrations QUESTIONS

1.      Calculate the number of moles of H₂SO₄ in 50 cm³ of a 0.50 moldm^-3 solution.

2.      Calculate the number of moles of FeSO₄ in 25 cm³ of a 0.2 moldm^-3 solution.

3.      Calculate the mass of KMnO₄ in 25 cm³ of a 0.02 moldm^-3 solution.

4.      Calculate the mass of Pb(NO₃)₂ in 30 cm³ of a 0.1 moldm^-3 solution.

5.      What is the molarity of 1.06g of H₂SO₄ in 250 cm³ of solution?

6.      What is the molarity of 15.0 g of CuSO₄.5H₂O in 250 cm³ of solution?

7.      What volume of a 0.833 moldm^-3 solution of H₂O₂ will be required to make 250 cm³ of a 0.100 moldm^-3 solution?

8.      What volume of a 0.50 moldm^-3 solution of HCl will be required to make 100 cm³ of a 0.050M solution?

9.      How many moles of NaCl are there in 25 cm³ of a 50 gdm^-3 solution?

Reacting masses and volumes

1.      25 cm³ of a solution of 0.1 moldm^-3 NaOH reacts with 50 cm³ of a solution of hydrochloric acid. What is the molarity of the acid?

2.      25.0 cm³ of a 0.10 moldm^-3 solution of sodium hydroxide was titrated against a solution of hydrochloric acid of unknown concentration. 27.3 cm³ of the acid was required. What was the concentration of the acid?

3.      10 cm³ of a solution of NaCl react with 15 cm³ of  a 0.02 moldm^-3 solution of AgNO₃. What is the concentration of the NaCl solution in gdm^-3?

4.      25 cm³ of a 0.1 moldm^-3 solution of an acid H_xA reacts with 75 cm³ of a 0.1 moldm^-3 solution of NaOH. What is the value of x?

Equation: H_xA + xNaOH à + Na_xA + xH₂O

5.      A solution of hydrochloric acid of volume 25.0 cm³ was pipetted onto a piece of marble which is calcium carbonate. When all action had ceased, 1.30g of the marble had dissolved. Find the concentration of the acid

Equation: CaCO₃ + 2HCl à CaCl₂ + CO₂ + H₂O

6.      What volume of 0.1 moldm^-3 hydrochloric acid would be required to dissolve 2.3 g of calcium carbonate?

Equation: CaCO₃(s) + 2HCl(aq) à CaCl₂(aq) + CO₂(g) + H₂O(l)

7.      2.05 g of the carbonate of an unknown alkali metal (X₂CO₃) required 8.9 cm³ of 2.0 moldm^-3 hydrochloric acid to completely dissolve it. What was the relative atomic mass of the metal and which metal was it?

Equation: X₂CO₃(s) + 2HCl(aq) à 2XCl(aq) + CO₂(g) + H₂O(l)

8.      3.2 g of hydrated sodium carbonate, Na₂CO₃.xH₂O, was dissolved in water and the resulting solution was titrated against 1.0 moldm^-3 hydrochloric acid. 22.4 cm³ of the acid was required. What is the value of x?