Acids and Bases - Physical 2

Question 1

Define a Bronsted-Lowry acid

Answer 1

Proton donor

Question 2

Define a Bronsted-Lowry base

Answer 2

Proton acceptor

Question 3

What ion causes a solution to be acidic? (2 answers) Name and formula

Answer 3

H+ (hydrogen ion) or, more accurately, H3O+
(oxonium ion), as protons react with H2O to form it

Question 4

Write an equation for the ionisation of water (2)

Answer 4

2H2O (l) ⇌ H3O+ (aq) + -OH (aq)

OR

H2O(l)⇌H+ (aq)+-OH(aq)

Question 5

What ion causes a solution to be alkaline?

Answer 5

-OH (hydroxide ion)

Question 6

What is the value of Kw at 298K? /25 degrees celsius

Answer 6

1.0 x 10-14

Question 6

Derive Kw using the equation for ionisation of water

Answer 6

please check - actually do

Question 7

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

Answer 7

Temperature only - if temperature is increased, the equilibrium moves to the right so Kw increases and the pH of pure water decreases

Question 8

Why is pure water still neutral, even if pH does not equal 7?

Answer 8

[H+] = [-OH]

Question 9

Give an expression for pH in terms of H+

Answer 9

pH = -log10[H+]

Question 10

What is the relationship between pH and concentration of H+?

Answer 10

Lower pH = higher concentration of H+

Question 11

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

Answer 11

A factor of 10

Question 12

How do you find [H+] from pH?

Answer 12

[H+] = 10-pH

Question 13

How do you find [OH-] from pH? (at 298K)

Answer 13

Find [H+], use Kw(equal to 1 x 10-14 at 298K) to calculate [-OH]

Question 14

What is different when finding [H+] from the concentration of diprotic and triprotic acids?

Answer 14

Need to multiply the concentration of the acid by the number of protons to find [H+]

Question 15

How do you calculate the pH of a strong alkaline solution?

Answer 15

Use Kw to calculate [H+] from [OH-] Use pH=-log[H+]

Question 16

Define the term strong base.

Answer 16

One which fully dissociates in water (XOH → X+ + -OH)

Question 17

Define the term strong acid

Answer 17

One which fully dissociates in water ( HX → H+ + X-)

Question 18

Give some examples of strong acids

Answer 18

HCl, H2SO4, H3PO4

Question 19

What is the difference between concentrated and strong?

Answer 19

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

Question 20

What is a weak acid and a weak base?

Answer 20

Weak acids and bases do not fully dissociate in water. They only partially dissociate into their ions.

Question 21

Give some examples of strong bases

Answer 21

NaOH, CaCO3, Na2CO3

Question 22

How would you work out the pH of a weak acid?

Answer 22

Use the equation for Ka, subbing in values for [A-] and [HA].
Use pH=-log[H+] equation to find pH

Question 23

Give some examples of weak acids

Answer 23

CH3COOH (ethanoic), any organic acid

Question 24

What is Ka? (expression)

Answer 24

check seriously

Question 24

Give some examples of weak bases

Answer 24

NH3

Question 24

What is a titration?

Answer 24

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

Question 25

Draw the titration curve for a weak acid with a weak base added

Answer 25

check

Question 25

Draw a diagram of the equipment that could be used for a titration.

Answer 25

check

Question 25

Draw the titration curve for a strong acid with a weak base added

Answer 25

check

Question 26

Draw the titration curve for a strong acid with a strong base added

Answer 26

check

Question 27

Draw the titration curve for a weak acid with a weak base added

Answer 27

check

Question 28

Draw the titration curve for a weak acid with a strong base added

Answer 28

check

Question 29

Define the term equivalence point.

Answer 29

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

Question 30

What generally happens to the pH of the solution around the equivalence point?

Answer 30

There is a large and rapid change in pH, except in the weak-weak titration.

Question 31

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

Answer 31

Phenolphthalein or methyl orange, but phenolphthalein is usually used as clearer colour change.

Question 32

What is the end point?

Answer 32

The volume of acid or alkali added when the indicator just changes colour. If the right indicator is chosen, equivalence point = end point.

Question 33

How would you calculate the concentration of a reactant if you know the volume and conc of the other reactant and the volume of that reactant
added

Answer 33

Calculate mols of one reactant

use balanced equation to work out mols of the other

Use conc = mol/vol to calculate concentration

Question 34

What are the properties of a good indicator for a reaction? (3)

Answer 34

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, or titration gives wrong answer.
Distinct colour change so it is obvious when the end point has been reached.

Question 35

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

Answer 35

Methyl orange

Question 36

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

Answer 36

Phenolphthalein

Question 36

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

Answer 36

Neither methyl orange or phenolphthalein is suitable, as neither give a sharp change at the end point.

Question 37

What colour is methyl orange in acid? In alkali? At what pH does it change?

Answer 37

Red in acid; yellow in alkali. Changes at about pH = 4-5. Approx same as pKa value

Question 38

What colour is phenolphthalein in acid? In alkali? At what pH does it
change?

Answer 38

Colourless in acid; red in alkali. Changes at about pH = 9-10. Approx same as pKa value

Question 39

What is the half-neutralisation point?

Answer 39

When volume = half the volume that has been added at the equivalence point

Question 40

Define a buffer solution

Answer 40

A solution that resist changes in pH when small amount of acid/alkali are added.

Question 41

Write a reaction for an acidic buffer with added acid

Answer 41

A- + H+ → HA, opposes addition of H+

Question 41

What do acidic buffer solutions contain in general terms?

Answer 41

A weak acid and a soluble salt of that acid that fully dissociates.

Question 42

Write a reaction for an acidic buffer with added alkali.

Answer 42

HA+OH- →H2O+A-

Question 43

How else can you achieve an acidic buffer solution other than just mixing the
constituents?

Answer 43

Neutralise half of a weak acid (meaning the acid must be in excess) with an alkali - this forms a weak acid / soluble salt mixture.

Question 44

What do basic buffer solutions contain in general terms?

Answer 44

Weak base and soluble salt of that weak base

Question 45

How can you calculate the pH of buffer solutions?

Answer 45

Use the Ka of the weak acid, sub in [A- and [HA], calculate [H+] → pH

Question 46

How can you calculate the new pH of a buffer solution when acid or base is added?

Answer 46

Calculate number of moles of H+ and A- and HA before acid or base is added. Use equations to work out new moles of A- and HA → find [H+] → pH

Question 47

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

Answer 47

H+ + HCO3– ⇌ CO2 + H2O
Add OH- → reacts with H+ to form H2O, then shifts equilibrium left to restore H+ lost
Add H+ → equilibrium shifts to the right, removing excess H+

Question 48

What products are buffers found in?

Answer 48

Shampoos, detergents → important to keep pH right to avoid damage to skin, hair, fabrics