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BUFFER SOLUTIONS A guide for A level students © 2004 JONATHAN HOPTON & KNOCKHARDY PUBLISHING.

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Presentation on theme: "BUFFER SOLUTIONS A guide for A level students © 2004 JONATHAN HOPTON & KNOCKHARDY PUBLISHING."— Presentation transcript:

1 BUFFER SOLUTIONS A guide for A level students © 2004 JONATHAN HOPTON & KNOCKHARDY PUBLISHING

2 Buffer solutions INTRODUCTION This Powerpoint show is one of several produced to help students understand selected topics at AS and A2 level Chemistry. It is based on the requirements of the AQA and OCR specifications but is suitable for other examination boards. Individual students may use the material at home for revision purposes or it may be used for classroom teaching if an interactive white board is available. Accompanying notes on this, and the full range of AS and A2 topics, are available from the KNOCKHARDY SCIENCE WEBSITE at... www.argonet.co.uk/users/hoptonj/sci.htm Navigation is achieved by... either clicking on the grey arrows at the foot of each page orusing the left and right arrow keys on the keyboard

3 CONTENTS What is a buffer solution? Uses of buffer solutions Acidic buffer solutions Alkaline buffer solutions Buffer solutions - ideal concentration Calculating the pH of a buffer solution Salt hydrolysis Check list Buffer solutions

4 Before you start it would be helpful to… know that weak acids and bases are only partly ionised in solution be able to calculate pH from hydrogen ion concentration be able to construct an equation for the dissociation constant of a weak acid Buffer solutions

5 Buffer solutions - Brief introduction Acidic Buffer (pH < 7) made from a weak acid + its sodium or potassium salt ethanoic acid sodium ethanoate Alkaline Buffer (pH > 7) made from a weak base + its chloride ammonia ammonium chloride UsesStandardising pH meters Buffering biological systems (eg in blood) Maintaining the pH of shampoos Definition “Solutions which resist changes in pH when small quantities of acid or alkali are added.”

6 Buffer solutions - uses Definition “Solutions which resist changes in pH when small quantities of acid or alkali are added.” Biological Uses In biological systems (saliva, stomach, and blood) it is essential that the pH stays ‘constant’ in order for any processes to work properly. e.g. If the pH of blood varies by 0.5 it can lead to unconsciousness and coma Most enzymes work best at particular pH values. Other Uses Many household and cosmetic products need to control their pH values. Shampoo Buffer solutions counteract the alkalinity of the soap and prevent irritation Baby lotion Buffer solutions maintain a pH of about 6 to prevent bacteria multiplying Others Washing powder, eye drops, fizzy lemonade

7 Buffer solutions - action It is essential to have a weak acid for an equilibrium to be present so that ions can be removed and produced. The dissociation is small and there are few ions. CH 3 COOH(aq) CH 3 COO¯(aq) + H + (aq) relative concs. HIGH LOW LOW NB A strong acid can’t be used as it is fully dissociated and cannot remove H + (aq) HCl(aq) ——> Cl¯(aq) + H + (aq) Adding acid Any H + is removed by reacting with CH 3 COO¯ ions to form CH 3 COOH via the equilibrium. Unfortunately, the concentration of CH 3 COO¯ is small and only a few H + can be “mopped up”. A much larger concentration of CH 3 COO¯ is required. To build up the concentration of CH 3 COO¯ ions, sodium ethanoate is added, which dissociates completely. CH 3 COO¯Na + (aq) —> CH 3 COO¯(aq) + Na + (aq) relative concs. LOW HIGH HIGH.

8 Buffer solutions - action We have now got an equilibrium mixture which contains a high concentration of both the undissociated weak acid, CH 3 COOH(aq), and its conjugate base, CH 3 COO¯(aq). CH 3 COOH(aq) CH 3 COO¯(aq) + H + (aq) relative concs. HIGH LOW LOW CH 3 COO¯Na + (aq) —> CH 3 COO¯(aq) + Na + (aq) relative concs. LOW HIGH HIGH Adding alkali This adds OH¯ ions These react with the small concentration of H + ions: H + (aq) + OH¯(aq) H 2 O(l) Removal of H + from the weak acid equilibrium means that more CH 3 COOH will dissociate to form ions to replace those being removed. CH 3 COOH(aq) CH 3 COO¯(aq) + H + (aq) As the added OH¯ ions remove the H + from the weak acid system, the equilibrium moves to the right to produce more H + ions. (There needs to be a large concentration of undissociated acid molecules to be available)

9 Buffer solutions - ideal concentration The concentration of a buffer solution is important If the concentration is too low, there won’t be enough CH 3 COOH and CH 3 COO¯ to cope with the ions added. Summary For a buffer solution one needs... large [CH 3 COOH(aq)] - for dissociating into H + (aq) when alkali is added weak acid (equilibrium shifts to the right) large [CH 3 COO¯(aq)] - for removing H + (aq) as it is added conjugate base (equilibrium shifts to the left) This situation can’t exist if only acid is present; a mixture of the acid and salt is used. The weak acid provides the equilibrium and the large CH 3 COOH(aq) concentration. The sodium salt provides the large CH 3 COO¯(aq) concentration. One uses a WEAK ACID + its SODIUM OR POTASSIUM SALT

10 Alkaline buffer Very similar but is based on the equilibrium surrounding a weak base; AMMONIA NH 3 (aq) + H 2 O(l) OH¯(aq) + NH 4 + (aq) relative concs. HIGH LOW LOW but one needs ;a large conc. of OH¯(aq) to react with any H + (aq) added a large conc of NH 4 + (aq) to react with any OH¯(aq) added There is enough NH 3 to act as a source of OH¯ but one needs to increase the concentration of ammonium ions by adding an ammonium salt. UseAMMONIA (a weak base) + AMMONIUM CHLORIDE (one of its salts) Alkaline buffer solutions - action

11 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. The K a of the weak acid HA is 2 x 10 -4 mol dm -3

12 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. The K a of the weak acid HA is 2 x 10 -4 mol dm -3 K a = [H + (aq)] [A¯(aq)] [HA(aq)]

13 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. K a = [H + (aq)] [A¯(aq)] [HA(aq)] re-arrange [H + (aq)] = [HA(aq)] x K a [A¯(aq)]

14 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. K a = [H + (aq)] [A¯(aq)] [HA(aq)] re-arrange [H + (aq)] = [HA(aq)] x K a [A¯(aq)] from information given[A¯] = 0.1 mol dm -3 [HA] = 0.1 mol dm -3

15 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. K a = [H + (aq)] [A¯(aq)] [HA(aq)] re-arrange [H + (aq)] = [HA(aq)] x K a [A¯(aq)] from information given[A¯] = 0.1 mol dm -3 [HA] = 0.1 mol dm -3 If the K a of the weak acid HA is 2 x 10 -4 mol dm -3. [H + (aq)]= 0.1 x 2 x 10 -4 = 2 x 10 -4 mol dm -3 0.1

16 Calculating the pH of an acidic buffer solution Calculate the pH of a buffer whose [HA] is 0.1 mol dm -3 and [A¯] of 0.1 mol dm -3. K a = [H + (aq)] [A¯(aq)] [HA(aq)] re-arrange [H + (aq)] = [HA(aq)] x K a [A¯(aq)] from information given[A¯] = 0.1 mol dm -3 [HA] = 0.1 mol dm -3 If the K a of the weak acid HA is 2 x 10 -4 mol dm -3. [H + (aq)]= 0.1 x 2 x 10 -4 = 2 x 10 -4 mol dm -3 0.1 pH= - log 10 [H + (aq)] = 3.699

17 Calculating the pH of an acidic buffer solution Calculate the pH of the solution formed when 500cm 3 of 0.1 mol dm -3 of weak acid HX is mixed with 500cm 3 of a 0.2 mol dm -3 solution of its salt NaX. K a = 4 x 10 -5 mol dm -3.

18 Calculating the pH of an acidic buffer solution Calculate the pH of the solution formed when 500cm 3 of 0.1 mol dm -3 of weak acid HX is mixed with 500cm 3 of a 0.2 mol dm -3 solution of its salt NaX. K a = 4 x 10 -5 mol dm -3. K a = [H + (aq)] [X¯(aq)] [HX(aq)]

19 Calculating the pH of an acidic buffer solution Calculate the pH of the solution formed when 500cm 3 of 0.1 mol dm -3 of weak acid HX is mixed with 500cm 3 of a 0.2 mol dm -3 solution of its salt NaX. K a = 4 x 10 -5 mol dm -3. K a = [H + (aq)] [X¯(aq)] [HX(aq)] re-arrange[H + (aq)] = [HX(aq)] K a [X¯(aq)]

20 Calculating the pH of an acidic buffer solution Calculate the pH of the solution formed when 500cm 3 of 0.1 mol dm -3 of weak acid HX is mixed with 500cm 3 of a 0.2 mol dm -3 solution of its salt NaX. K a = 4 x 10 -5 mol dm -3. K a = [H + (aq)] [X¯(aq)] [HX(aq)] re-arrange[H + (aq)] = [HX(aq)] K a [X¯(aq)] The solutions have been mixed; the volume is now 1 dm 3 therefore [HX] = 0.05 mol dm -3 and [X¯] = 0.10 mol dm -3

21 Calculating the pH of an acidic buffer solution Calculate the pH of the solution formed when 500cm 3 of 0.1 mol dm -3 of weak acid HX is mixed with 500cm 3 of a 0.2 mol dm -3 solution of its salt NaX. K a = 4 x 10 -5 mol dm -3. K a = [H + (aq)] [X¯(aq)] [HX(aq)] re-arrange[H + (aq)] = [HX(aq)] K a [X¯(aq)] The solutions have been mixed; the volume is now 1 dm 3 therefore [HX] = 0.05 mol dm -3 and [X¯] = 0.10 mol dm -3 Substituting[H + (aq)] = 0.05 x 4 x 10 -5 = 2 x 10 -5 mol dm -3 0.1 pH= - log 10 [H + (aq)] = 4.699

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