Module 5 - Physical chemistry and transition elements

Question 1

what is lattice enthalpy?

Answer 1

when gaseous ions combine to make a solid lattice, energy is given out -> lattice enthalpy

Question 2

what is the standard lattice enthalpy?

Answer 2

• is the enthalpy change when 1 mole of ionic lattice is formed from its gaseous ions under standard conditions. its a measure of ionic bond strength. the more negative the lattice enthalpy, the stronger the bonding

Question 3

what does it mean if the charge of the ions is higher?

Answer 3

• more energy is released when an ionic lattice forms. this is due to the stronger electrostatic forces between the ions. more energy release means that the lattice enthalpy will be more negative. so the lattice enthalpies for compounds with 2+ or 2- ions are more exothermic than those with less

Question 4

what does it mean if the ionic radii of the ions involved are smaller?

Answer 4

• the more exothermic the lattice enthalpy. smaller ions have a higher charge density and their smaller ionic radii mean that the ions can sit closer together in the lattice. both these things mean that the attractions between the ions are stronger

Question 5

how do you calculate the lattice enthalpy using a born-haber cycle?

Answer 5

1. you start with the enthalpy of formation
2. then put the enthalpies of atomisation and ionisation above this
3. the electron affinity
4. and lattice enthalpy goes last

Question 6

what is the enthalpy of formation?

Answer 6

• the enthalpy change when 1 mole of a compound is formed from its elements in their standard states

Question 7

what happens when a solid ionic lattice dissolves in water?

Answer 7

• the bonds between the ions break to give gaseous ions, this is endothermic. the enthalpy change is the opposite of the lattice enthalpy
• bonds between the gaseous ions and water are made, this is exothermic. the enthalpy change of hydration.

Question 8

what is the enthalpy change of solution?

Answer 8

• its the overall effect on the enthalpy of these two things. the effect happens because oxygen is more electronegative than hydrogen, so it draws the bonding electrons towards itself, creating a dipole

Question 9

what is the enthalpy of hydration?

Answer 9

• the enthalpy change when 1 mole of gaseous ions dissolves in water

Question 10

what is the enthalpy of solution?

Answer 10

• the enthalpy change when 1 mole of solute dissolves in water

Question 11

when do substances generally dissolve?

Answer 11

• if the energy released is roughly the same or greater than the energy taken in. so soluble substances tend to have exothermic enthalpies of solution

Question 12

how do you calculate the enthalpies of hydration of ions using lattice enthalpy?

Answer 12

1 - put the ionic lattice and the dissolved ions at the top, connect them by the enthalpy change of solution
2 - connect the ionic lattice to the gaseous ions by the reverse of the lattice enthalpy. the breakdown of the lattice has the opposite enthalpy change to the formation of the lattice
3 - connect the gaseous ions to the dissolved ions by the hydration enthalpies of each ion

Question 13

what two things affect the enthalpies of hydration?

Answer 13

1. ions with a higher charge are better at attracting water molecules as the electrostatic attraction between the ion and the water molecules is stronger, so more energy is released when the bonds are made giving them a more exothermic enthalpy of hydration
2. smaller ions have a higher charge density so they attract the water molecules better and have a more exothermic enthalpy.

Question 14

what is entropy?

Answer 14

• its a measure of the number of ways that particles can be arranged and the number of ways that the energy can be shared out between the particles. the more disordered the particles are, the higher the entropy is. A large, positive value of entropy shows a high level of disorder.

Question 15

how does physical state affect entropy?

Answer 15

• solid particles just unable about a fixed point - there’s hardly any randomness, so they have the lowest entropy. gas particles whizz around whenever they like. they’ve got the most random arrangements of particles, so the highest entropy

Question 16

how does the number of particles affect entropy?

Answer 16

• the more particles you’ve got, the more ways they and their energy can be arranged and so the entropy increases

Question 17

why are some reactions feasible?

Answer 17

substances really like disorder, they’re more energetically stable when there’s more disorder, so particles will move to increase their entropy. when reactions are feasible they just happen by themselves without addition of energy even when the enthalpy change is endothermic

Question 18

what happens when a substance reaches its maximum entropy state?

Answer 18

its said to be thermodynamically stable. this means it wont react any further without the input of energy

Question 19

what is the equation for entropy change of a reaction?

Answer 19

entropy change S = Sproducts - Sreactants

Question 20

what is a positive entropy change?

Answer 20

means that a reaction is likely to be feasible, but a negative change in entropy of reaction doesnt guarantee the reaction cant happen enthalpy, temperature and kinetics play a part in whether or not a reaction occurs

Question 21

what is the tendecny of a process to take place dependant on?

Answer 21

• the entropy, the enthalpy and the temperature. when all of these are together you get the free energy change, which tells us if a reaction is feasible,

Question 22

how do you calculate the free energy change?

Answer 22

• free energy change = enthalpy change - temperature x entropy change

Question 23

what happens when free energy change = 0?

Answer 23

• the reaction is just feasible, so the temperture at which the reaction becomes feasible can be calculated by
  temperature = enthalpy change divided by entropy change

Question 24

what happens when the enthalpy change is negative and entropy change is positive?

Answer 24

• the free energy change will always be negative and the reaction is feasible

Question 25

what happens when the enthalpy change is positive and the entropy change is negative?

Answer 25

• the free energy change will always be positive and the reaction is not feasible

Question 26

what happens when the free energy shows a reaction is feasible?

Answer 26

• it might have a high activation energy or happen very slowly

Question 27

what is the reaction rate?

Answer 27

the change in amount of reactants or products per unit time, colorimeters measure the absorbance of a particular wavelength of light by a solution

Question 28

what is the order of reaction?

Answer 28

the order of reaction with respect to a particular reactant tells you how the reactant’s concentration affects the rate

Question 29

what is zero order?

Answer 29

if you double the reactant’s concentration and the rate stays the same its a zero order reaction

Question 30

what is a first order?

Answer 30

if you double the reactant’s concentration and the rate also doubles, its a first order reaction

Question 31

what is a second order?

Answer 31

if you double the reactant’s concentration and the rate quadruples, its a second order reaction

Question 32

what is the overall order?

Answer 32

this is the sum of the order of all the different orders

Question 33

what do the orders look like on a rate-concentration graph?

Answer 33

zero order - a horizontal line means changing the concentration doesn’t change the rate, so its order=0
first order - straight line through the origin means rate is proportional, so its order 1
second order - a curve means its order 2

Question 34

what is the general equation for rate?

Answer 34

rate = k[A]m[B]n

• k is the rate constant, the bigger it is the faster it is
• m and n are the orders of the reaction with respect to reactants A and B, they tell you how the concentration of A and B affect the rate

Question 35

what does it mean of the overall reaction is first order?

Answer 35

• then the rate constant is equal to the gradient of the rate-concentration graph of that reactant

Question 36

what is the half life of the reaction?

Answer 36

is the time it takes for half life of the reactant to be used up.

Question 37

what is the half life of a first order reaction?

Answer 37

its independent of the concentration so each half life will be the same length. this means the half life of a first order reaction can be read of its concentration-time graph, this is exponential decay

Question 38

what is the equation to work out the rate constant using half life?

Answer 38

K= ln2 divided by t1/2

Question 39

what happens to the rate when you increase the temperature?

Answer 39

more reactant particles will have the required activation energy for the reaction, so a greater proportion of the collisions will result in the reaction actually happening. so increasing the temperature, increases the reaction rate

Question 40

what does a rate constant apply to?

Answer 40

it applies to a particular reaction at a certain temperature, so at a higher temperature the reaction will have a higher rate constant

Question 41

what does Arrhenius equation?

Answer 41

it likes the rate constant K with Ea and temp

K = Ae x -Ea/RT
- K is rate constant, Ea is activation energy Jmol, T is temp is K, R is gas constant 8.314, and A is the pre-exponential factor

Question 42

what happens as Ea gets bigger?

Answer 42

k gets smaller. so a large Ea, will mean a slow rate as if a reaction has a high Ea, then not many of the reactant particles will have enough energy to react. so only a few of the collisions will result in the reaction actually happening and the rate will be slow

Question 43

what is Arrhenius’ equation is logarithmic form?

Answer 43

lnK= -Ea/RT + lnA

• you can use the eqn to create an arrhenius plot by plotting lnK against 1/T. this will make a graph of -Ea/R and y-intercept of lnA.
• You can then find Ea and A.

Question 44

what are rate mechanisms?

Answer 44

they can have one step or series of steps. each step can have a different rate, the overall rate if decided by the step with the slowest rate which is called the RATE DETERMINING STEP

Question 45

what happens if a rate appears or doesnt appear in the equation?

Answer 45

• if it appears in the rate reaction, it must affect the rate. so this reactant, or something derived from it must be in the rate-determining step
• if it doesnt appear in the rate reaction, then it isn’t involved in the rate determining step

Question 46

what is the total pressure of a gas mixture?

Answer 46

• is the sum of all the partial pressures of the individual gases

Question 47

what is a mole fraction?

Answer 47

• its the proportion of a gas mixture that is a particular gas

Question 48

what is the equation for a mole fraction of a gas?

Answer 48

number of moles of gas divided by total number of moles of gas in the mixture

Question 49

what is the equation for partial pressure of a gas?

Answer 49

mole fraction of a gas x total pressure of the mixture

Question 50

what is the general equation for equilibrium of a partial pressure?

Answer 50

instead of brackets like in Kc you use p. eg p(D)d x p(E)e

Question 51

what happens to the equilibrium when you change a condition of a reversible reaction?

Answer 51

• if the change causes more product to form, then you say the equilibrium shifts to the right
• if the change causes left product to form, then the equilibrium shifts to the left

Question 52

what does the equilibrium constant for a reaction depend on?

Answer 52

temperature
1 - if changing the temp causes less product to form the equilibrium moves the left and the equilibrium constant decreases
2 - if changing the temp causes more product to form the equilibrium moves the right and the equilibrium constant increases

Question 53

what do concentration and pressure do to the equilibrium constant (pressure)?

Answer 53

they dont affect the values of Kp or Kc but they do change the amounts of products and reactants present at equilibrium,
- catalysts have no effect on the position of equilibrium or the value of kc or kp.

Question 54

what is the d-block?

Answer 54

the block of elements in the middle of the periodic table. most of the elements in the d-block are transition elements. a transition element is one that can form at least one stable ion with an incomplete d sub-shell

Question 55

what can a d sub shell element do?

Answer 55

it can hold 10 electrons, transition elements must form at least one ion that has between 1&9 electrons in the d-subshell. all the period 4 d-block elements are transition elements except Sn and Zn.

Question 56

describe chromium’s arrangement?

Answer 56

prefers to have one electron in each orbital of the 3d subshell and just one in the 4s subshell which gives it more stability
- when transition elements form positive ions, the s electrons are removed first, then the d electrons

Question 57

describe copper’s arrangement?

Answer 57

prefers to have a full 3d subshell and just one electron in the 4s subshell. when cu2+ ion is formed it loses 2 electrons forming an incomplete d sub shell.

Question 58

why are transition elements good catalysts?

Answer 58

they can change oxidation states by gaining or losing electrons within their d-orbitals. this means they can transfer electrons to speed up reactions.
- they are also good at absorbing substances onto their surfaces to lower the activation energy of reactions

Question 59

what happens when you mix aq transition ions with aq NaOH or aq NH3?

Answer 59

you get a coloured hydroxide precipitate. in aqueous solutions, transition elements take the form (M(H20)6)n+.

Question 60

describe the reactions of Copper II with NaOh and NH3?

Answer 60

1- [Cu(H20)6]2+ + 2OH- –> [Cu(OH)2 (H20)4]s + 2H2Ol
2- [Cu(H20)6]2+ + 2NH3 –> [Cu(OH)2 (H20)4]s + 2NH4+
solution goes from pale blue to a blue precipitate

Question 61

describe the reactions of iron II with NaOH and NH3?

Answer 61

1- [Fe(H20)6]2+ + 2OH- –> [Fe(OH)2 (H20)4]s + 2H2Ol
2- [Fe(H20)6]2+ + 2NH3 –> [Fe(OH)2 (H20)4]s + 2NH4+
solution goes from pale green to a green precipitate, darkens on standing

Question 62

describe the reactions of manganese II with NaOH and NH3?

Answer 62

1- [Mn(H20)6]2+ + 2OH- –> [Mn(OH)2 (H20)4]s + 2H2Ol

2- [Mn(H20)6]2+ + 2NH3 –> [Mn(OH)2 (H20)4]s + 2NH4+ solution goes from pale pink to a pink/buff solution

Question 63

describe the reactions of iron III with NaOH and NH3?

Answer 63

1- [Fe(H20)6]3+ + 3OH- –> [Fe(OH)2 (H20)4] + 3H2O
2- [Fe(H20)6]3+ + 3NH3 –> [Fe(OH)2 (H20)4] + 3NH4+
solution goes from yellow to a orange precipitate

Question 64

describe the reactions of chromium III with NaOH and NH3?

Answer 64

1- [Cr(H20)6]2+ + 3OH- –> [Cr(OH)2 (H20)4] + 3H2O
in excess NaOH it forms [Cr(OH)6]3- a dark green
2- [Cr(H20)6]2+ + 3NH3 –> [Cr(OH)2 (H20)4] + 3NH4+
in excess NH3 forms [Cr(NH3)6]3+ a dark purple
originally the solution goes from green to a grey-green

Question 65

what is a complex ion?

Answer 65

a metal ion surrounded by coordinately bonded ligands. a coordinate bond (or dative bond) is a covalent bond in which both electrons in the shared pair come from the same atom

Question 66

what is a ligand?

Answer 66

an atom,ion or molecule that donates a pair of electrons to a central metal atom or ion. the coordination number is the number of coordinate bonds that are formed with the central metal atom/ion

Question 67

what is the coordination number in most complex ions?

Answer 67

it will be 4 or 6.

• if the ligands are small like H20, CN- or NH3, 6 can fit around the central atom. its octahedral.
• if the ligands are larger like Cl- only 4 can fit. its tetrahedral.

Question 68

what are ligands with 1 or 2 coordinate bonds called?

Answer 68

• ligands with one lone pair are called monodentate eg H20, Nh3, Cl- and CN-
• ligands with two lone pairs are called bidentate, these ligands can each form two coordinate bonds with a metal ion
• ligands with two or more coordinate bonds are called multidentate

Question 69

what do square planar and octahedral complex ions do?

Answer 69

they have at least two pairs of ligands which show cis/trans isomerism.

Question 70

what is cis-platin?

Answer 70

its a complex of platinum (II) with chloride ions and two ammonia molecules in a square planar shape. it is used as an anti cancer drug

Question 71

how does cis-platin work?

Answer 71

the two chloride ligands are easy to displace, so the cis-platin loses the and bonds to two nitrogen atoms on the DNA molecule inside the cancerous cell.
- the block on its DNA prevents the cancerous cell from reproducing by division, the cell will die since its unable to replace damage.

Question 72

what is the downside of cis-platin?

Answer 72

cis-platin also prevents normal cells from reproducing, including blood which can suppress the immune system and increase risk of infection

Question 73

what happens in ligand substitution when the ligand is the same size?

Answer 73

if its the same size eg H20, CN- or NH3, then the coordination number stays the same and so does the shape

Question 74

what happens in ligand substitution when the ligand is the a different size?

Answer 74

if they are different sizes eg H2O and Cl- theres a change of coordination number and change of shape

Question 75

what can ligand substitution sometimes be?

Answer 75

sometimes it can be partial, this only happens when there’s an excess of ammonia
[Cu(H2O)6]2+ + 4NH3 -> [Cu(NH3)4(H2O)2]2+ + 4H2O

Question 76

What does haemoglobin contain?

Answer 76

It has Fe2+ ions which form 6 coordinate bonds, four of the lone pairs come frol nitrogen atoms within a circular part of the molecule called haem

Question 77

whats the equation of [Cu(H2O)6]3+ with Cl?

Answer 77

[Cu(H2O)6]2+ + 4Cl- -> [CuCl4]2- + 6H2O
pale blue yellow
octahedral tetrahedral

Question 78

whats the equation of [Cr(H2O)6]3+ with NH3?

Answer 78

[Cr(H2O)6]3+ + 6NH3 -> [Cr(NH3)6]3+ + 6H20
violet purple
octahedral octahedral

Question 79

whats the equation of [Cu(H2O)6]2+ with NH3?

Answer 79

[Cu(H2O)6]2+ + 4NH3 -> [Cu(NH3)4(H2O)2]2+ + 4H2O

Question 80

what is the half equation for acidified potassium manganate (VII), KMnO4?

Answer 80

MnO4- + 8H+ + 5e -> Mn2+ +4H20

- in this solution Fe2+ is oxidised to Fe3+ (yellow colour)

Question 81

what is the half equation for Fe3+ being reduced to Fe2+ by iodide ions?

Answer 81

• 2I- -> I2 + 2e
• Fe3+ + e -> Fe2+
  colour of Fe changes from yellow in Fe3+ to Fe2+ pale green

Question 82

what happens to the Cr3+ ion when it is warmed with hydrogen peroxide, H2O2?

Answer 82

• H2O2 + 2e -> 2OH-
• 2Cr(OH)6 + 4OH- -> 2CrO42- +8H2O + 6e
  dark green Cr3+ ion is oxidised to yellow chromate CrO4-, yellow chromate(VI) solution

Question 83

what happens when you add dilute sulfuric acid to chromate (VI) solution?

Answer 83

2CrO42- +2H+ -> Cr2O72- + H2O

it produces the orange dichromate(VI) solution

Question 84

what happens when acidified dichromate(VI) solution is reduced by acidified zinc?

Answer 84

• Zn -> Zn2+ +2e
• Cr2O72- + 14H+ + 6e -> 2Cr3+ + 7H2O
  the Cr2O72-, orange is reduced to Cr3+ green

Question 85

what happens when Cu2+ is reduced to copper(I) by iodide ions?

Answer 85

• 2Cu2+ + 4I- -> 2CuI + I2

changes from pale blue to off-white precipitate

Question 86

what does Cu+ do?

Answer 86

it is unstable and spontaneously disproportionates to produce Cu(s) and Cu2+
- 2Cu2+ -> Cu + Cu2+

Question 87

what is oxidation and reduction?

Answer 87

• oxidation is the loss of electrons and reduction is the gain of electrons

Question 88

what are iodine-thiosulfate titrations?

Answer 88

its a way of finding the concentration of an oxidising agent. the more concentrated an oxidising agent is, the more ions will be oxidised by a certain volume of it

Question 89

what are electrochemical cells?

Answer 89

they can be made from two different metals dipped in salt solutions of their own ions and connected by a wire (the external circuit). there are always two reactions within an electrochemical cell, oxidation and reductions

Question 90

what happens to zinc in an zinc/copper electrochemical cell?

Answer 90

zinc loses electrons more easily than copper. so in the half cell on the left, zinc from the zinc electrode is oxidised to form Zn2+ ions. This releases electrons into the external circuit

Question 91

what happens to copper in an zinc/copper electrochemical cell?

Answer 91

in the other half cell, the same number of electrons are taken from the external circuit reducing the Cu2+ ions to copper atoms.

Question 92

what is the salt bridge?

Answer 92

it connects the solutions, its made from filter paper soaked in KNO3(aq) which allows ions to flow through and balance out the charges.
- electrons flow through the wire from the most reactive metal to the least reactive

Question 93

what is the cell potential or emf?

Answer 93

a voltmeter in the external circuits show the voltage between two half cells which is the emf

Question 94

what happens with half cells involving solutions of two aqueous ions of the same element?

Answer 94

eg with Fe2+ and Fe3+, the conversion from one to the other happens on the surface of a platinum electrode. platinum is used because its inert and conducts electricity

Question 95

when can electrochemical cells be made from non-metals?

Answer 95

for systems involving gas eg chlorine, this gas be bubbled over a platinum electrode sitting in a solution of its aqueous ions eg Cl-

Question 96

what measures how easily a metal is oxidised?

Answer 96

electrode potentials can. a metal that is easily oxidised has a very negative electrode potential, while one that’s harder to oxidise has a positive electrode potential.
- the zinc half cell has a more negative electrode potential, so zinc is oxidised (the reaction goes backward), while copper is reduced (the reaction goes forward).

Question 97

how do you draw electrochemical cells?

Answer 97

• the half cell with the more negative potential goes on the left
• the oxidised form goes in the centre of the cell diagram
  the cell potential will always be a positive voltage, because the more negative E value is being subtracted from the more positive E value

Question 98

what is the standard electrode potential?

Answer 98

the standard electrode potential of a half cell is the voltage measured under standard condtions when the half cell is connected to a standard hydrogen electrode

Question 99

what are the standard conditions?

Answer 99

• any solutions must have a concentration of 1.00moldm3 or be equimolar (ie contain the same number of moles of ions)
• the temperature must be 298K
• the pressure must be 100kPa

Question 100

where is the standard hydrogen electrode shown?

Answer 100

its always shown on the left and has a value of 0.00V. the whole cell potential is equal to right hand side minus left hand side

Question 101

what does changing the equilibrium position do?

Answer 101

it changes the cell potential. standard conditions are used to measure the electrode potentials, using these conditions means you always get the same value for the electrode potential and you can compare values for different cells

Question 102

what do more negative electrode values mean?

Answer 102

more negative standard electrode potentials means they want to lose electrons, undergo oxidation and form a positive ion.

Question 103

what do more positive electrode values mean?

Answer 103

more positive standard electrode potentials means they want to gain electrons, undergo reduction, to form a negative ion

Question 104

whats a fuel cell?

Answer 104

it produces electricity by reacting a fuel, usually hydrogen with an antioxidant which is more likely to be oxygen

Question 105

what are stages 1 and 2 of the fuel cell process?

Answer 105

1- at the anode, the platinum catalyst splits the H2 into protons and electrons
2- the polymer electrolyte membrane (PEM) only allows the H+ across and this forces the electrons to travel around the circuit to get the cathode

Question 106

what are stages 3 and 4 of the fuel cell process?

Answer 106

3- an electric current is created in the cirvuit, which is used to power something like a car
4- at the cathode, )2 combines with the H+ from the anode and the electrons from the circuit to make H2O, this is the only waste product

Question 107

what are the advantages of fuel cells?

Answer 107

• they are more efficient at producing energy than conventional combustion engines, as energy is wasted as heat during combustion
• they produce a lot less pollution, as for hydrogen fuel cells the only waste is water

Question 108

what are the disadvantages of fuel cells?

Answer 108

• production of the cells involves the use of toxic chemicals, which need to be disposed of
• the chemicals used to make the cell are often flammable

Question 109

what is homogenous equilibria?

Answer 109

contains equilibrium species that all have the same state or phase.

Question 110

what is hetergenous equilibria?

Answer 110

contains equilibrium species that have different states or phases. any species that are solid or liquids are removed the kc expression

Question 111

what is the effect of temperature on equlibrium constants when the forward reaction is exothermic (negative delta H)?

Answer 111

the equilibrium constant decreases with increasing temperature, raising the temp decreases the equilibrium yield of products.

Question 112

what is the effect of temperature on equlibrium constants when the forward reaction is endothermic (positive delta H)?

Answer 112

the equilibrium constant increases with decreasing temperature, raising the temp increases the equilibrium yield of products

Question 113

when is reaction feasible?

Answer 113

when delta H is negative, delta S is positive, delta G is negative

Question 114

when is a reaction not feasible?

Answer 114

when delta H is positive, delta S is negative, delta G is positive

Question 115

what is a bronsted lowry acid?

Answer 115

it is a proton donor that releases H+ ions when mixed with water. they’re combined with H2O to form H3O+, hydroxonium ions. HA + H2O -> H3O+ + A-

Question 116

what is a bronsted lowry base?

Answer 116

it is a proton acceptor. when they are in solution. they grab hydrogen ions from water molecules
B + H2O -> BH+ + OH-

Question 117

what is a conjugate base-acid pair?

Answer 117

they contain two species that can be interconverted by transfer of a proton. the species that has lost a proton is the conjugate base and the species that has gained a proton is the conjugate acid

Question 118

describe this reversible reaction HA + B -> BH+ + A-?

Answer 118

• in the forward reaction, HA acts as an acid as it donates a proton and in the reverse reaction, A- acts as a base and accepts a proton from the BH+ ion to form HA
• HA and A- are a conjugate pair, HA is the conjugate acid of A- and A- is the conjugate base of the acid, HA
• B and BH+ are a conjugate pair, the base B takes a proton to form BH+, so B is the conjugate base of BH+ and BH+ is the conjugate acid of B

Question 119

in aqueous solution what does dissociation require?

Answer 119

it requires a proton to be transferred from an acid to a base. the dissociation doesn’t take place unless water is present. it reacts with acids to form a conjugate acid (H3O+), and reacts with bases to form a conjugate base (OH-)

Question 120

what are monobasic, dibasic and tribasic acids?

Answer 120

• monobasic has one hydrogen atom
• dibasic has two hydrogen atoms
• tribasic has three hydrogen atoms

Question 121

what are spectator ions?

Answer 121

they are ions that don’t change during the reaction, they can be cancelled out

Question 122

what is pH?

Answer 122

its a measure of how acidic or basic something is, it measures the concentration of hydrogen ions in solution. for any solution at 25C:

• pH less than 7 shows increasing acidity
• PH greater than 7 shows increasing alkalinity
• pH 7 is neutral

Question 123

what do low and high values of H+ mean?

Answer 123

• low value of H+ matches a high value of pH

- high value of H+ matches a low value of pH

Question 124

how do you calculate the pH?

Answer 124

pH = -log[H+]

reverse is H+ = 10-pH

Question 125

describe the logarithmic scale of pH?

Answer 125

• a change of one pH number is equal to a 10 times difference in H+. a pH of 1 has 10 times the concentration of H+ ions as a solution with a pH of 2.

Question 126

what does it mean the larger the numerical value of Ka?

Answer 126

the greater the dissociation and the greater the acid strength. Ka cant give negative indices so we use:
pKa = -logKa
reverse is Ka = 10-pKa

Question 127

what does it mean the stronger/weaker the acid?

Answer 127

• the stronger the acid, the larger the Ka value and the smaller the pKa value
• the weaker the acid, the smaller the Ka value and the larger the pKa value

Question 128

how do strong and weak acids dissociate?

Answer 128

• strong acid HA completely dissociates H+ = HA

- weak acid HA partially dissociates, there is an equilibrium: HA -> H+ + A-

Question 129

what does H+ depend on?

Answer 129

• the concentration of the acid (HA)
• the acid dissociation, Ka
  when HA molecules dissociate, H+ and A- ions are formed in equal quantities

Question 130

how do you calculate pH using the Ka expression?

Answer 130

H+ = square root of Ka x HA

Question 131

how can the Ka for a weak acid be measured?

Answer 131

it can be determined by preparing a standard solution of the weak acid of known concentrations, measuring the pH of standard solution using a pH meter

Question 132

how does water ionise?

Answer 132

it ionises very slightly, acting as both an acid and as a base. the dissociation of water is small 1dm3

Question 133

what is Kw?

Answer 133

it is the ionic product of water, the ions in water H+ and OH- multiplied together.
Kw = H+ + OH-
- the value of Kw at 298K (25C) is 1.00 x10-14 mol2dm-6

Question 134

what does Kw do?

Answer 134

it is an equilibrium constant that controls the concentrations of H+ and OH- in aqueous solutions

Question 135

when is a solution acidic or alkaline?

Answer 135

• its acidic when H+ is greater than OH-
• a solution is neutral when H+ = OH-
• its alkaline when H+ is less than OH-

Question 136

what is an alkali?

Answer 136

it is a soluble base that releases OH- ions in aqeuous solution. a strong base is an alkali that completely dissociates in solution
- as with strong bases, weak bases are also an alkali

Question 137

how can the pH of a strong base be calculated?

Answer 137

• the concentration of the base

- the ionic product of water Kw

Question 138

what is a buffer solution?

Answer 138

it is a system that maintains pH changes when small amounts of an acid or a base are added. Buffer solutions contain two components to remove added alkali or acid.
- A weak acid and its conjugate base, the weak acid, HA, removes added alkali and the conjugate base, A-, removes added alkali

Question 139

what happens when acid or alkalis are added to a buffer?

Answer 139

the two components in the buffer solution react and will be used up. As soon as one component has reacted, the solution loses its buffering ability towards added acids and alkalis. the pH changes by a small amount

Question 140

how can a buffer be prepared by mixing a solution of ethanoic acid with a solution of one of its salts sodium ethanoate? 1

Answer 140

• when ethanoic acid is added to water, the acid partially dissociates and the amount of ethanoate ions in solution is very small. Ethanoic acid is the source of the weak acid component of the buffer solution
  CH3COOH -> H+ + CH3COO-

Question 141

what happens to salts of weak acid? 2

Answer 141

they are ionic compounds and provide a convenient source of the conjugate base. when added to water, the salt completely dissolves. Dissociation into ions is complete and so the salt is the source of the conjugate base component of the solution
CH3COONA + aq -> CH3COO- + Na+

Question 142

how can a buffer solution be prepared by adding an aqueous solution of an alkali eg NaOH to an excess of the weak acid?

Answer 142

the acid is partially neutralised by the alkali, forming the conjugate base. some of the acid is left over unreacted. the resulting solution contains a mixture of the salt of the weak acid and any unreacted weak acid

Question 143

what happens in the ethanoic acid equilibrium?

Answer 143

the position lies towards CH3COOH. when Ch2COO- ions are added to Ch3COOH, the position shifts towards the left, reducing the small concentration of H+ ions, leaving a solution containing two components CH3COOH and CH3COO-.

Question 144

what do CH3COOH and CH3COO- act as in an ethanoic acid equilibrium?

Answer 144

they act as two reservoirs that are able to act independently to remove acid and alkali, which is achieved by shifting the buffers equilibrium either right or left

Question 145

how do conjugate bases remove acids?

Answer 145

on addition of an acid, H+:

1. H+ increases
2. H+ ions react with the conjugate base, A-
3. the equilibrium position shifts to the left, removing most of the H+ ions

Question 146

how do weak acids remove alkali?

Answer 146

on the addition of an alkali, OH-:

1. OH- increases
2. small concentrations of H+ ions reacts with the OH- ions
3. HA dissolves, shifting the equilibrium position to the right to restore most of the H+ ions

Question 147

what is the pH of the buffer solution the same as?

Answer 147

the pKa value of HA, the operating pH is typically over about two pH values, centred at the pH of the pKa value

Question 148

how do you calculate the pH of a buffer solution?

Answer 148

[H+] = Ka x [HA]/[A-]

Question 149

what is blood plasma?

Answer 149

it needs to be maintained between 7.35 and 7.45. the pH is controlled by a mixture of buffers, with the carbonic acid-hydrogencarbonate (H2CO3/HCO3-). if the pH falls below 7.35 people can develop a condition called acidosis. if the pH rises above 7.45 the condition is called alkalosis

Question 150

how does the carbonic acid- hydrogencarbonate buffer system work? on addition of an acid?

Answer 150

1. H+ increases
2. H+ ions react with the conjugate base HCO3-
3. the equilibrium shifts to the left, removing H+ ions

Question 151

how does the carbonic acid- hydrogencarbonate buffer system work? on addition of an alkali?

Answer 151

1. OH- increases
2. small concentrations of H+ ions reacts with the OH- ions
3. H2CO3 dissociates, shifting the equilibrium to the right to restore most of the H+ ions

Question 152

what does the body produce more of?

Answer 152

produces more acidic materials than alkaline, which the conjugate base HCO3- converts to H2CO3. the body prevents H2CO3 building up by converting it to CO2 which is exhaled

Question 153

how is the vertical section produced?

Answer 153

when a base is first added, the acid is in great excess and the pH is increases slightly. as the vertical section is approached, the pH is starts to increase more quickly as the acid is used up quicker. eventually pH increases rapidly during addition of a small volume of base, producing the vertical section

Question 154

what is the equivalence point?

Answer 154

it is the volume of one solution that exactly reacts with the volume of the other solution, its the centre of the vertical section of the pH titration curve

Question 155

what is an acid-base indicator?

Answer 155

it is a weak acid, HA, that has a different colour from a conjugate base, A-.
Eg methylorange. the weak acid, HA, is red. the conjugate base, A-, is yellow. at the end point, the indicator contains equal concentrations of HA and A-

Question 156

what happens in a titration in which a strong base is added to a strong acid? eg with methylorange

Answer 156

methylorange is initially red as the presence of H+ ions forces the equilibrium to the left:
on addition of a basic solution containing OH- ions:
1. OH- ions react with H+ in the indicator
2. the weak acid, HA dissociates shifting equilibrium to the right
3. colour changes at first to orange then yellow as equilibrium shifts to the right

Question 157

what happens when methylorange is added initially to a basic solutions and acid is added?

Answer 157

1. H+ ions react with the conjugate base, A-
2. the equilibrium position shifts to the left
3. the colour change first to orange and finally to red when equilibrium shifts left

Question 158

what is the pH of the end point the same as?

Answer 158

it is the same as the pKa value of HA