Explain why chloroethanoic acid is a stronger acid than ethanoic acid.(2) - Answers Electronegative
chlorine withdraws electrons/negative inductive effect
Makes O-H bond more polar
Explain why data books do not usually contain values of Ka for strong acids.(2) - Answers Strong acids
completely dissociate
Can't divide by zero in ka as equilibrium lies very far to the right
Give the value of the ionic product of water, Kw, measured at 298K, and state its units.(2) - Answers
1x10^-14
mol^2dm^-6
The dissociation of HA into its ions in aqueous solution is an endothermic process. How would its pH
change if the temperature were increased? Explain your answer.(3) - Answers Decreases
Equilibrium shifts to the right
Concentration of H+ increases with temperature
Solution B can act as an acidic buffer. Explain what this means and write an equation that shows how
Solution B acts as a buffer if a little hydrochloric acid is added - Answers Buffer can resist change in pH
on addition of small amounts of H+ or OH-
(H+) + (X-) > HX
Explain the terms acid and conjugate base according to the Brønsted-Lowry theory(2) - Answers
Bronsted-Lowry acid is a proton donor
It's conjugate base is the substance formed when the acid loses a proton
Give the Brønsted-Lowry definition of a base. State the essential feature of an acid-base reaction in
aqueous solution, writing an ionic equation to illustrate your answer. - Answers A base is a proton
acceptor
The essential feature is proton transfer
(H+) + (OH-) > H2O
Explain what is meant by the term weak when applied to acids and bases.(1) - Answers Only partially
dissociates in aqueous solution
, A buffer solution is formed, when approximately half of the original amount of the acid HA(aq) has been
neutralised by the base NaOH(aq).
Explain how this buffer solution is able to resist change in pH when (i) a small amount of NaOH(aq) is
added(2)
(ii) a small amount of HCl is added(2) - Answers The added OH- reacts with H+
The equilibrium shifts right to replace lost H_
The added H+ reacts with A-
The equilibrium shifts to the left
There are two end points that occur when HCl is added to 25cm^3 of sodium carbonate (Na2CO3). Write
equations for both these end points(2) - Answers Na2CO3 + HCl > HNaCO3 + NaCl
HNaCO3 + HCl > H2CO3 + NaCl
The value of the acid dissociation constant for the monoprotic acid HX is 144 mol dm-3 . What does this
suggest about the concentration of undissociated HX in dilute aqueous solution?(1) - Answers Not very
big
The indicator phenolphthalein is a weak acid which can be represented by the formula HIn. It dissociates
in solution and has a pKa value of 9.3.
HIn(aq) H+ (aq) + In- (aq)
Suggest and explain, with reference to the pKa value, the pH range of phenolphthalein.(2) - Answers at
half neutralisation point(says end point on mark scheme?) pH=ka=9.3
pH detectable over 2 pH units (8.3-10.3)
State why phenolphthalein is unsuitable for a titration between a strong acid and a weak base.(1) -
Answers end point of titration is lower than the phenolphthalein range
In a 0.25 M solution, a different acid HY is 95% dissociated. Calculate the value of Ka for the acid HY(6) -
Answers [H+] = 0.95 x 0.25 = 0.2375
[HY] = 0.05 x 0.25 = 0.0125
[H+] = [Y-]
Ka= [0.2375]^.0125