Topics 8.1 to 8.5
Paper 1 style questions are multiple choice. You are not permitted to use a calculator or the data book for these questions, but you should use a periodic table.
A periodic table pop-up is available on the left hand menu.
Strong acids and alkalis completely dissociate into ions. So one mole of KOH or HCl gives one mole of H+ or OH− ions.
pH can be found by pH = −log10[H+] and pOH can be found by pOH = −log10[OH−]
The relationship between [OH−] and [H+] is given by the ionic product of water (which should be learned):
Kw = [OH−] × [H+] = 1 × 10−14 (mol2 dm−6) and therefore pH + pOH = 14 (at 298K).
Without a calculator it's important to rememeber that pH scale is logarithmic. E.g. 1.0 × 10−6 mol dm−3 HCl (aq) with have a pH of 6, and 1.0 × 10−5 mol dm−3 HCl (aq) will have a pH of 5 etc. (1.0 mol dm−3 HCl (aq) has a pH of 0)
1.0 × 10−6 mol dm−3 KOH (aq) will therefore have a pOH of 6, and a pH of 14-6 = 8.
1.0 × 10−6 mol dm−3 KOH (aq) is therefore the correct answer.
Incorrect answers
It is tempting to think that 1.0 × 10−8 mol dm−3 HCl (aq) will have a pH=8, but, at 298K a pH of 8 is alkaline, and HCl is an acid. In fact, we must remember that water also contributes H+ ions (1.0 × 10−7 mol dm−3 H+ ions). So the total H+ ion concentration of 1.0 × 10−8 mol dm−3 HCl (aq) at 298K will be 1.0 × 10−7 mol dm−3 from water and 1.0 × 10−8 mol dm−3 from HCl (aq). Giving a pH of a little under 7.
Which cannot act as a Brønsted-Lowry base?
A Brønsted-Lowry base is an H+ ion (proton) acceptor. So in order to behave as a Brønsted-Lowry base, a species must have the capacity to accept an H+ ion. All the species given can accept an H+ ion (as they have an available lone pair and will form stable species) except the ammonium ion, which cannot.
Therefore NH4+ is the correct answer.
Which cause acid deposition?
1: nitrogen oxide
2: carbon dioxide
3: sulfur dioxide
Rain water is naturally acidic due to dissolved carbon dioxide, but this only causes mild acidity (pH ≈ 5.6).
Acid deposition occurs when oxides of nitrogen and sulfur dissolve in rain water.
Therefore 1 and 3 only is the correct answer.
Which of these acids has the weakest conjugate base?
Every acid has a conjugate base. To find the conjugate base of a Bronsted-Lowry acid, simply remove an H+ ion from the acid.
If we do that, we realise that three of the 'acids' given, that is CH3COOH, C2H5COOH and NH4+ are components of a weak acid/weak base equilibrium. (carboxylic acids are weak, and ammonia (NH3) is weak.)
HNO3 is a strong acid and fully dissociates into ions in solution, so NO3− will not accept an H+ ion easily, and is therefore the weakest conjugate base.
Therefore HNO3 is the correct answer.
Which is the difference between a conjugate Brønsted-Lowry acid-base pair?
The Brønsted-Lowry model is our usual model for defining acids and bases.
A Brønsted-Lowry acid is a proton/hydrogen ion/H+ donor and a Brønsted-Lowry base is a proton/hydrogen ion/H+ acceptor. These definitions need to be learned. Thus the difference between a conjugate Brønsted-Lowry acid-base pair is a proton/hydrogen ion/H+.
Therefore A hydrogen ion is the correct answer.
Which is an example of an amphiprotic species?
An amphiprotic species can both accept or donate a proton (Therefore, is both a Brønsted-Lowry acid and a Brønsted-Lowry base).
(A Brønsted-Lowry acid is an H+ ion (proton) donor and a base is an H+ ion (proton) acceptor. So in order to behave as both, a species must be able to both donate and accept an H+ ion.)
Note that Al2O3 is amphoteric (can react as an acid or as a base) but is not amphiprotic (it has no H+ ions).
H2PO4− can accept a proton to form H3PO4, or can donate a proton to form HPO42−. We should recognise that both these species (produced) are stable.
Therefore H2PO4− is the correct answer.
pH can be found by pH = −log10[H+] and pOH can be found by pOH = −log10[OH−]
The relationship between [OH−] and [H+] is given by the ionic product of water (which should be learned):
Kw = [OH−] × [H+] = 1 × 10−14 (mol2 dm−6) and therefore pH + pOH = 14 (at 298K).
Without a calculator it's important to rememeber that pH scale is logarithmic. E.g. 1.0 × 10−6 mol dm−3 H+ (aq) with have a pH of 6, and 1.0 × 10−5 mol dm−3 H+ (aq) will have a pH of 5 etc. (1.0 mol dm−3 H+ (aq) has a pH of 0)
A solution with [H+] = 1.0 × 10−12 mol dm−3 will therefore have a pH of 12, which is basic. The other solutions are acidic.
[H+] = 1.0 × 10−12 mol dm−3 is therefore the correct answer.
Which two species act as Brønsted-Lowry acids in the reaction below?
HCO3− + NH3 ⇌ CO32− + NH4+
A Brønsted-Lowry acid is a proton/hydrogen ion/H+ donor. So the acid loses an H+ and gives it to something else.
The reaction is an equilibrium, and an H+ is transferred when the reaction takes place in both directions.
Left-to-right, the HCO3− is donating a proton to NH3, and right-to-left the NH4+ is donating a proton to CO32−.
Therefore the correct answer is: HCO3− and NH4+
What is the order of decreasing pH for the following aqueous solutions of equal concentration?
Strong acids and alkalis fully dissociate into ions in aqueous solution, weak acids and alkalis only partially dissociate.
Hydrochloric acid (HCl) and sulfuric acid (H2SO4) are strong acids, so fully dissociate into ions. H2SO4 dissociates into two moles of H+ ions (per mole of acid) and since pH = −log10 [H+], H2SO4 will have a lower pH than HCl of the same concentration.
Ethanoic acid (CH3COOH) is a weak acid, so will partially dissociate, and will therefore have a higher pH than any strong acid of equal concentration (HCl and H2SO4).
Sodium hydroxide is a strong alkali and will therefore have the highest pH.
Therefore NaOH > CH3COOH > HCl > H2SO4 is the correct answer.
What are the products when calcium hydrogen carbonate reacts with nitric acid?
Acid reactions need to be learned:
Acid + Base (metal oxide/hydroxide) → Salt + Water
Acid + Metal → Salt + Hydrogen
Acid + Metal Carbonate (or Metal Hydrogen Carbonate) → Salt + Water + Carbon Dioxide
And neutralising: hydrochloric acid produced chlorides; sulfuric acid produces sulfates; nitric acid produces nitrates.
The formula of calcium nitrate is Ca(NO3)2 since calcium is in group 2 (Ca2+) and the nitrate ion has a formula of NO3− (compound ions must be learned).
Therefore Ca(NO3)2 + H2O + CO2 is the correct answer.
Which statement is correct?
Every base has a conjugate acid. (To find the conjugate acid of a Bronsted-Lowry base, simply add an H+ ion to the base.)
We need to remember that strong bases are good proton acceptors (and they fully dissociate into ions in aqueous solution) so the conjugate acid of a strong base will be a weak acid, since it will not easily give up a proton/hydrogen ion (and return to the strong base).
Therefore A strong base is a good proton acceptor and has a weak conjugate acid is the correct answer.
Complete this question without a calculator: 10 cm3 of HCl (aq) solution of pH = 3 is mixed with 990 cm3 of water.
What is the pH of the resulting solution?
pH can be found by pH = −log10[H+]
Without a calculator it's important to rememeber that pH scale is logarithmic. E.g. 1.0 × 10−6 mol dm−3 HCl (aq) with have a pH of 6, and 1.0 × 10−5 mol dm−3 HCl (aq) will have a pH of 5 etc. (1.0 mol dm−3 HCl (aq) has a pH of 0)
And therefore diluting the [H+] by 10 will increase the ph by 1, diluting by 100 will increase by 2, diluting by 1000 will increase by 3 etc. (diluting an acid increases pH).
In this question, the [HCl] (and therefore [H+]) is diluted by 100 times (10cm3 to 1000cm3 total), thus the pH will increase by 2.
pH = 5 is therefore the correct answer.
How much of Acids and Bases core (SL and HL) paper 1 questions have you understood?