5.1.3 Acids, Bases and Buffers

Question 1

Define a Bronsted- lowry acid

Answer 1

Proton donor

Question 2

Define a bronsted lowry base

Answer 2

proton acceptor

Question 3

Define lewis acid

Answer 3

electron pair acceptor

Question 4

Define lewis base

Answer 4

Electron pair donor

Question 5

What ion causes a solution to become acidic?

Answer 5

H+ (hydrogen ion)

H3O+ (oxonium ion) as protons react with H2O to form it

Question 6

What ions causes a solution to be alkaline?

Answer 6

OH-

hydroxide ion

Question 7

Write an equation for the ionisation of water

Answer 7

2 H2O (l) H3O+ (aq) + OH- (aq)

H2O (l) H+ (aq) + OH- (aq)

Question 8

Give an example of a monobasic acid

Answer 8

HCL

Question 9

Give an example of a dibasic acid

Answer 9

H2SO4

Question 10

Give an example of a tribasic acid

Answer 10

H3PO4

Question 11

Identify the acid pairs for the reaction below

CH3COOH + H2O CH3COO- + H3O+

Answer 11

CH3COOH = ACID 1
CH3COO- = BASE 1

H30+ = ACID 2
H2O = BASE 2

Question 12

Define strong acid

Answer 12

Acids dissociates completely

Question 13

Give some examples of strong acids

Answer 13

Hydrochloric acid
sulfuric acid
nitric acid

Question 14

What is the difference between concentrated and strong?

Answer 14

Concentrated means many mol per dm3. strong refers to the amount of dissociation

Question 15

Define weak acids

Answer 15

Acids that only partially dissociate

Question 16

Give some examples of weak acids

Answer 16

Methanoic acid, any organic acid

Question 17

What is the constant that is used to measure the extent of acid dissociation called?

Answer 17

Acid dissociation constant

Question 18

What is the symbol of acid dissociation constant?

Answer 18

Ka

Question 19

Write the acid dissociation constant expression

Answer 19

For acid HA,
HA H+ + A-

ka = [H+] [A-] / HA

Question 20

What does a larger Ka value mean?

Answer 20

Larger the Ka. the greater the extent of disccociation

Question 21

Write the equation used to convert Ka into pKa

Answer 21

pka = -log (Ka)

Question 22

Write the equation used to convert pKa into Ka

Answer 22

ka = 10 ^-pKa

Question 23

What is the relationship between pKa and strength of the acid?

Answer 23

Smaller the pKa, stronger the acid

Question 24

Write the equation used to convert concentration of H+ into pH

Answer 24

pH = -log [H+]

Question 25

Write equation used to convert pH into conc of H+

Answer 25

[H+] = 10^-ph

Question 26

Why is a pH scale useful compared to the conc of H+?

Answer 26

pH scale allows a wide ranger of H+ concentrations to be expressed as a simple positive value

Question 27

What is the relationship between pH and [H+]

Answer 27

High pH value means a small [H+]

Question 28

If two solutions have a pH difference of 1, what is the difference in [H+]

Answer 28

a factor of 10

Question 29

[H+] of a strong acid is equal to what?

Answer 29

[H+] = [HA]

Question 30

Write the equation used to calculate [H+] of weak acids

Answer 30

[H+] = sqrt ka x [HA]

Question 31

What is the assumption made when calculating pH of weak acids?

Answer 31

It is assumed that the concentration of acid at equillibrium is equal to the concentration of acid after disscoaition. This is because only very little of the acid dissociates

Question 32

Write the expression for ionic product of water, kw

Answer 32

kw = [H+][OH-]

Question 33

What is the units for kw

Answer 33

mol2dm-6

Question 34

What is the value of kw at 298k?

Answer 34

1..0 x 10^-14

Question 35

What physical factors affect the value of kw? How do they affect it?

Answer 35

Temperature only

if temp increases, the equilibrium moves to the right so kw increases and the pH of pure water decreases

Question 36

Indices of [H+] and [OH-] always adds up to what value?

Answer 36

-14

Question 37

Define the term strong base

Answer 37

Base that dissociates 100% in water

Question 38

Give examples of some strong bases

Answer 38

NaOH
KOH
Ca(OH)2

Question 39

Give example of a weak base

Answer 39

Ammonia

Question 40

Write the equation used to calculate [H+] of strong bases

Answer 40

[H+] = kw / [OH-]

Question 41

Define a buffer solution

Answer 41

A mixture that minimises pH change on addition of small amounts of an acid or a base

Question 42

What are the 2 ways in which buffers can be made?

Answer 42

Weak acid and its conjugate base

weak acid and a strong alkali

Question 43

In which direction does does the equilibrium shift when an acid is added to a buffer solution? Why?

Answer 43

Equilibrium shifts to the left because [H+] increases and the conjugate base reacts with the H+ to remove most of the H+

Question 44

In which direction does the equilibrium shift when an alkali is added to a buffer solution? Why?

Answer 44

Equilibrium shifts to the right because [OH-] increases and the small concentrations of H+ reacts with OH- to restore the H+ ions HA dissociates shifting the equilibrium

Question 45

Write the equation used to calculate [H+] of buffer solution

Answer 45

[H+] = Ka X ( [HA] / [A-] )

Question 46

Which buffer system maintains blood pH at 7.4? what happens when acid/ alkali is added?

Answer 46

H+ + HCO3 CO2 + H2O

Adding OH-
reacts with H+ to form H2O
then shifts equilibrium left to restore H+ lost

Adding H+
equilibrium shifts to the right to remove excess H+

Question 47

What is a titration?

Answer 47

The addition of an acid/base of known concentration to a base/acid to determine the concentration. An indicator is used to show that neutralisation has occurred, as is a pH meter

Question 48

Define the term equivalence point

Answer 48

The point at which the exact volume of base has been added to just neutralise the acid, or vice versa

Question 49

What is the end point?

Answer 49

the point at which pH changes rapidly

Question 50

What are the good properties of a good indicator for a reaction?

Answer 50

sharp colour change (not gradual)
no more than one drop of acid/ alkali needed for colour change

End point must be the same as the equivalence point otherwise titration gives wrong answer

Distinct colour change so it is obvious when the end point has been reached

Question 51

What indicator would you use for a strong acid- strong base titration?

Answer 51

phenolphthalein or methyl orange

Phenolphthalein is usually used as clearer colour change

Question 52

What indicator would you use for a strong acid - weak base titration?

Answer 52

Methyl orange

Question 53

What indicator would you use for a strong base - weak acid titration?

Answer 53

Phenolphthalein

Question 54

What indicator would you use for a weak acid - weak base titration?

Answer 54

neither methyl orange of phenolphthalein is suitable as neither gives a sharp change at the end point

Question 55

What colour is methyl orange in acid or alkali?

Answer 55

Red in acid

Yellow in alkali

Question 56

What colour is phenolphthalein in acid or alkali?

Answer 56

Colourless in acid

red in alkali

Question 57

What colour is bromothymol blue in acid or alkali?

Answer 57

yellow in acid

blue in alkali

Question 58

Describe how to use a pH metre

Answer 58

Remove the pH probe from storage solution and rinse with distilled water.

Dry the probe and place it into the solution with unknown pH

Let the probe stay in the solution until it gives a settled reading