IB Docs (2) Team Acid-base calculations questions
Assignment: 
Questions on Topic 18.2: Acid-base calculations
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Calculate the pH of:
i. 10.0 cm3 of 1.00 x 10−2 mol dm−3 hydrochloric acid solution.
ii. 100 cm3 of 1.00 x 10−2 mol dm−3 hydrochloric acid solution.
iii. 10.0 cm3 of 2.00 x 10−4 mol dm−3 nitric acid solution.
iv. 10.0 cm3 of 1.00 x 10−2 mol dm−3 sodium hydroxide solution.
v. 10.0 cm3 of 1.00 x 10−3 mol dm−3 sulfuric acid solution. (Assume H2SO4 behaves as a strong diprotic acid.)
vi. 20.0 cm3 of 1.00 x 10−3 mol dm−3 barium hydroxide solution, Ba(OH)2(aq).
A solution has a pH of 3.60. Calculate:
i. the hydrogen ion concentration.
ii. the hydroxide ion concentration.
iii. the pH if the solution is diluted ten times (assume it is a strong acid as the degree of dissociation increases with dilution for weak acids).
State the equations for the reaction of i. ethanoic acid and ii. ammonia with water.
Calculate the pH of:
i. 1.00 x 10−3 mol dm−3 ethanoic acid solution, CH3COOH(aq). Ka(CH3COOH) = 1.8 x 10−5 at 298 K.
ii. 3.00 x 10−2 mol dm−3 ammonia solution, NH3(aq). Kb(NH3) = 1.8 x 10−5 at 298 K.
Use Section 21 of the IB Chemistry data booklet to calculate:
i. the pH of 4.00 x 10−4 mol dm−3 propanoic acid solution, C2H5COOH(aq).
ii. the pH of 1.00 x 10−5 mol dm−3 ethylamine (ethanamine) solution, C2H5NH2(aq).
Use Section 21 of the IB data booklet to put the following in order of decreasing acid strength:
water, ethanoic acid, phenol, chloroethanoic acid, ethanol, propanoic acid, benzoic acid.
The graph shows how the ionic product of water changes with temperature. Use the graph to determine:
i. the value of Kw at 80 oC.
ii. the hydrogen ion concentration at 70 oC.
iii. the hydroxide concentration at 70 oC.
iv. the pH at 50 oC.
v. the pOH at 80 oC.
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