Concentration of Solutions

Concentration of Solutions

Concentration of Solutions Working with Solution Concentrations Concentrations can be measured in either g dm-3 (grams per cubic decimetre) mol dm-3 (moles per cubic decimetre) Example 1 Converting from g dm-3 to mol dm-3

A sample of sea water had a concentration of sodium chloride of 35.1 g dm-3. Find its concentration in mol dm-3. (RAMs: Na = 23; Cl = 35.5) Answer 1 mol NaCl weighs 58.5g 35.1g is 35.1 mol = 0.6 mol 58.5 The concentration of the NaCl is 0.6 mol dm-3

Example 2 Converting from mol dm-3 to g dm-3 What is the concentration of a 0.050 mol dm-3 solution of sodium carbonate, Na2CO3, in g dm-3? (RAMs: C = 12; O = 16; Na = 23) Answer 1 mol Na2CO3 weighs 106g

0.050 mol weighs 0.050 x 106g = 5.3g 0.050 mol dm-3 is therefore 5.3 g dm-3 Example 3 A Tricky example! What is the concentration in mol dm-3 of a solution containing 2.1g sodium hydrogen carbonate, NaHCO3, in 250 cm3 of solution? (RAMs: H = 1; C = 12; O = 16; Na = 23)

Answer The problem here is that the volume is wrong! The solid is dissolved in 250 cm3 instead of 1000 cm3 (1 dm3). 250 cm3 is 1 of 1000 cm3 (1 dm3) 4 Therefore, a solution containing 2.1g in 250 cm3 has the same concentration as one containing 4 x 2.1g in 1000 cm3. 4 x 2.1g = 8.4g

1 mol NaHCO3 weighs 84g 8.4g is 8.4 mol = 0.10 mol 84 The concentration is therefore 0.10 mol dm-3 Dilution of Solutions To dilute a solution, distilled water is added. The number of moles of the solute remains the same in the concentrated and dilute solution; it is the amount of solvent that

changes. Example Describe the steps you would perform in the laboratory to produce 10 dm3 of a 0.5 mol dm-3 hydrochloric acid (HCl) solution from a 2 mol dm -3 hydrochloric acid. Answer

Final volume = 10 dm3 Final molar concentration = 0.5 mol dm-3 1 dm3 of final solution contains 0.5 mol HCl 10 dm3 of final solution contains (10 x 0.5) mol HCl = 5 mol HCl Therefore, 5 mol HCl needs to be taken out of the original solution. Calculate the volume of original solution which contains 5 mol

HCl: original molar concentration = 2 mol dm-3 2 mol HCl are contained in 1 dm3 of original solution 5 mol HCl are contained in 1 x 5 dm3 of original solution 2 = 2.5 dm3 of original solution Therefore to make 10 dm3 of final solution required 2.5dm3 of original solution added to 7.5dm3 distilled water. Calculations from Titrations

You do a titration to find the concentration of one solution, knowing the concentration of the other one. Example 1 The Standard Calculation 25.0 cm3 of 0.100 mol dm-3 sodium hydroxide solution required 23.5 cm3 dilute hydrochloric acid for neutralisation. Calculate the concentration of the hydrochloric acid.

NaOH(aq) + HCl(aq) NaCl(aq) + H2O(l) Answer Number of moles NaOH = 25.0 x 0.100 mol 1000 = 0.00250 mol 1 mol NaOH reacts with 1 mol HCl 0.00250 mol NaOH reacts with 0.00250 mol HCl If 23.5 cm3 HCl contains 0.00250 mol HCl 1000 cm3 will contain 0.00250 x 1000 mol HCl

23.5 = 0.106 mol The concentration is 0.106 mol dm-3 Example 2 A Slightly Harder Calculation 25cm3 of sodium hydroxide solution of unknown concentration was titrated with dilute sulphuric acid of concentration 0.050 mol dm-3. 20.0 cm3 of the acid was required to neutralise the

alkali. Find the concentration of the sodium hydroxide solution in mol dm-3. Answer 2NaOH(aq) + H2SO4(aq) Na2SO4(aq) + 2H2O(l) No. of moles of sulphuric acid used = 20.0 x 0.050 mol 1000 = 0.0010 mol Ratio of H2SO4 : NaOH = 1 : 2

So, no. of moles Sodium hydroxide = 2 x 0.0010 mol = 0.0020 mol Concentration of sodium hydroxide = 0.0020 x 1000 mol dm-3 25 = 0.080 mol dm-3 Example 3 Washing soda crystals have the formula Na2CO3.nH2O. 28.6 g of washing soda crystals were dissolved in pure water.

More pure water was added to make the total volume of the solution up to 1000 cm3. A 25.0 cm3 sample of this solution was neutralised by 40.0 cm3 of 0.125 mol dm-3 hydrochloric acid using methyl orange as indicator. Na2CO3(aq) + 2HCl(aq) 2NaCl(aq) + CO2(g) + H2O(l) (a) Calculate the concentration of the sodium carbonate in moles of sodium carbonate (Na2CO3) per cubic decimetre.

(b) Calculate the mass of Na2CO3 and mass of water in the washing soda crystals, and use these results to find a value for n in the formula Na2CO3.nH2O. (RAMs: H =1; C = 12; O = 16; Na = 23) Answer (a) No. of moles of HCl = 0.125 x 40 mol 1000 = 0.00500 mol

Ratio of Na2CO3 : HCl = 1 : 2 No. of moles Na2CO3 = 0.00500 mol = 0.00250 mol 2 The sodium carbonate solution contained 0.00250 mol in 25.0 cm3. Concentration of Na2CO3 = 0.00250 x 1000 mol dm-3 25 = 0.100 mol dm-3 Answer (b) 1 mol Na2CO3 weighs 106g

0.100 mol Na2CO3 weighs 0.100 x 106g = 10.6g The original mass of the crystals dissolved in the water was 28.6 g. Of this, we have worked out that 10.6g is Na 2CO3. Mass of water = 28.6 10.6 = 18.0g But, I mol water weighs 18 g There is therefore 1 mol of H2O in the crystals together with 0.100 mol of Na2CO3. Since there are ten times as many moles of H2O as Na2CO3, the formula is Na2CO3.10H2O

Percentage Purity Example Concentration of NaOH solution = 4.0 g dm-3 Molarity = 4.0 = 0.1M (Molar mass NaOH = 40) 40 When this solution was titrated against standard acid, its concentration was found to be only 3.5g dm-3 Percentage purity = 3.5 x 100 4.0 = 87.5%

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