Inorganic Chapter 4: Transition Metals

Question 1

Where are transition metals found in the periodic table?

Answer 1

The d-block

Question 2

What causes the special chemical properties of transition metals?

Answer 2

The partially filled d-block

Question 3

What 2 metals in period 4 aren’t transition metals?

Answer 3

Sc and Zn - Scandium forms an ion with an empty d sub-level, while Zinc forms an ion with a full d sub-level.

Question 4

Which electrons are lost first when you have a full 4s orbital and a partially filled 3d orbital?

Answer 4

The s orbitals go first, then the d orbitals.

Question 5

What physical properties do transition metals generally share?

Answer 5

High density
High melting/boiling points
Similar ionic radius

Question 6

What are the four main special properties of transition metals?

Answer 6

Can form complex ions
Can form coloured ions
Good catalysts
Can exist in variable oxidation states

Question 7

What is a complex ion?

Answer 7

A metal ion surrounded by ligands

Question 8

What is a ligand?

Answer 8

An atom or molecule that donates a pair of electons to a central transition metal ion, forming a co-ordinate bond.

Question 9

What is the coordination number?

Answer 9

The numer of coordinate bonds formed with the central metal ion.

Question 10

What shape is formed when a complex ion has 6 coordinate bonds?

Answer 10

Octahedral

Question 11

What shape is formed when a complex ion has 4 coordinate bonds?

Answer 11

Tetrahedral or Square planar - Square Planar is the exception, only occurs sometimes e.g. Cisplatin

Question 12

What complex ions form linear shapes?

Answer 12

Silver-based complexes e.g. [Ag(NH₃)₂]⁺

Question 13

What are small ligands that can form 6 coordinate bonds on an ion?

Answer 13

H₂O, NH₃

Question 14

What are some larger ligands that can only form 4 coordinate bonds on an ion?

Answer 14

Cl^-

Question 15

What does the overall charge on a complex represent?

Answer 15

Its total oxidation state

Question 16

How can you work out the oxidation state of the central metal ion in a complex?

Answer 16

Total oxidation state - oxidation states of all the ligands

Question 17

Why does a ligand need to have at least 1 lone pair?

Answer 17

Otherwise it has nothing to donate

Question 18

What is meant by a monodentate ligand?

Answer 18

The ligand can only form 1 coordinate bond - only has 1 lone pair

Question 19

What is meant by a multidentate ligand?

Answer 19

The ligand can form more than 2 coordinate bonds - has more than 2 lone pairs

Question 20

What is a Bidentate ligand?

Answer 20

A ligand that has 2 lone pairs - can form 2 coordinate bonds

Question 21

What is an example of a naturally-occuring complex ion?

Answer 21

Haemoglobin

Question 22

Why does Carbon monoxide cause oxygen poisoning?

Answer 22

Oxygen binds to the haemoglobin as a lingand, but CO does too, and it’s a strong ligand, so won’t get displaced by oxygen molecules on the haemoglobin.

Question 23

What type of isomerism can complex ions show?

Answer 23

Optical isomerism
Cis-Trans Isomerism

Question 24

How do octahedral complexes show Cis-Trans isomerism?

Answer 24

The Trans version has the two odd ligands opposite each other, while the Cis version has them next to each other.

Question 25

How do different coloured ions form?

Answer 25

The 3d sub-level is split into two energy levels when ligands bond to a central ion. There is an energy gap between the lower and upper levels, and the energy needed to promote an electron to the higher level comes from visible light, thereby determining which light wavelengths are absorbed.

Question 26

What formula is used to calculate the energy gap?

Answer 26

ΔE = hv = hc/λ

v = frequency of light absorbed (hz)
h = planck’s constant (J/s)
c = speed of light (m/s)
λ = wavelength of light absorbed (m)

Question 27

What is the use of coloured ions?

Answer 27

You can identify ions via their colours

Question 28

What are the three factors that affect the colour of an ion?

Answer 28

Oxidation state
Coordination number
Changes in ligand

Question 29

How can you use spectroscopy to determine concentration of transition metal ions?

Answer 29

White light is shone through a filter, which is chosen to only let through the colour of light absorbed by the sample. This light then passes to a colorimeter, which calculates how much light was absorbed by the sample. This measurement can then be used to calculate concentration using a calibration curve.

Question 30

How do you make a calibration curve?

Answer 30

Plot a graph of relative absorbance of an ion against concentration of the ion, using absorbtion data from known concentrations.

Question 31

What is ligand substitution?

Answer 31

When 1 ligand swaps places with another in a complex.

Question 32

What changes occur in the complex after a ligand substitution?

Answer 32

Colour change
If the ligands are a similar size, the coordination number and shape will not change.
If the ligands are different sizes, there will be a change in coordination number & shape.

Question 33

Under what condition can ligand substitutions not be reversed?

Answer 33

If the newly formed complex ion is much more stable than the old one.

Question 34

What can cause a complex ion to be more or less stable?

Answer 34

Multidentate ligands tend to form more stable complexes than monodentate ligands
If the new ligands form stronger bonds with the central ion, they will create a more stable complex.

Question 35

What is the chelate effect?

Answer 35

The effect which causes multidentate ligands to form more stable complexes than monodentate ligands. There are more particles when monondentate ligands are substituted for bidentate or multidentate ligands, so entropy will increase, thereby increasing stability.

Question 36

What is special about the oxidation states of transition metals?

Answer 36

They’re variable - can exist in different states

Question 37

What reaction takes place when you switch between oxidation states?

Answer 37

A redox reaction

Question 38

What is redox potential?

Answer 38

It tells you how easily an ion or atom is reduced to a lower oxidation state.

Question 39

What can redox potential also be shown as?

Answer 39

Standard Electrode Potential

Question 40

What can make it so that redox potential isn’t always the same as standard electrode potential?

Answer 40

Different ligands in the solution can have different effects depending on how they bond with the metal
pH of the solution affects the size of the redox potential
Generally, more acidic = larger redox potential and vice versa

Question 41

Why does Tollen’s reagent form a silver mirror?

Answer 41

It contains a silver complex that is reduced to elemental silver - forms the ‘silver mirror’

Question 42

What type of titration is undertaken when you use transition metal ions?

Answer 42

Redox titrations - colour change is the end point

Question 43

How do transition metal catalysts work?

Answer 43

They can change oxidation states - they can be reduced/oxidised at the start of the reaction, and then get oxidised/reduced at the end to come out unaffected.

Question 44

What does it mean if a catalyst is homogenous?

Answer 44

It is in the same state as the reactants

Question 45

What does it mean if a catalyst is heteregenous?

Answer 45

It is in a different state from the reactants

Question 46

What are some examples of heterogenous catalysts?

Answer 46

Iron in the Haber Process - makes ammonia
Vanadium Oxide in the contact process - makes Sulfuric acid

Question 47

What is catalyst poisoning?

Answer 47

When impurities in the reaction mixture bind to the catalyst’s surface and block reactants from being absorbed.

Question 48

What is different about a homogenous catalyst & how it speeds up a reaction?

Answer 48

The reaction takes place through an intermediate species - this is why the graph has 2 humps

Question 49

What is an example of a transition metal with 4 oxidation states?

Answer 49

Vanadium (V)

Question 50

How can you reduce vanadium ions?

Answer 50

Add zinc in an acidic solution

Question 51

What is Autocatalysis?

Answer 51

When a product catalyses the reaction. This means that as the reaction progresses, the reaction will speed up.

Question 52

What is a metal-aqua complex ion?

Answer 52

A complex formed when transition metal compounds dissolve in water.

Question 53

Are solutions containing metal-aqua complexes typically alkaline or acidic?

Answer 53

Acidic - more acidic the greater the charge is

Question 54

Why are metal-aqua ion solutions more acidic with greater charge?

Answer 54

Because 3+ ions are more polarising than 2+ ions, so therefore it’s more likely hydrogen will be released.

Question 55

How can you form precipitates from solutions of metal-aqua ions?

Answer 55

Add OH^- ions - shifts the equilbrium to the right by removing H₃O⁺ ions, eventually leaving an insoluble metal hydroxide with 3 OH ligands and 3 H₂O ligands.

Question 56

What is an example of a metal hydroxide that is amphoteric?

Answer 56

Aluminium Hydroxide

Question 57

What effects can adding ammonia have on a metal-aqua complex solution?

Answer 57

It creates an equilbibrium to produce OH ions.
Excess ammonia can dissolve precipitates.

Question 58

What is the result of a metal-aqua complex reaction with sodium hydroxide?

Answer 58

All four metal aqua ions will form precipitates, but only aluminium hydroxide precipitate will dissolve in excess sodium hydroxide.

Question 59

What is the result of a metal-aqua complex reaction with Ammonia?

Answer 59

All four complexes will form ppts with ammonia, but only copper hydroxide will dissolve in excess.

Question 60

What is the result of a metal-aqua complex reaction with sodium carbonate?

Answer 60

All 4 metal complexes will form ppts in sodium carbonate, but only Aluminium or Iron complexes will bubble. Fe³⁺ will give off a gas, while Fe²⁺ will not.

Question 61

What colour is the copper metal-aqua ion?

Answer 61

Blue solution

Question 62

What colour is the Iron 2+ metal-aqua ion?

Answer 62

Green solution

Question 63

What colour is the Aluminium metal-aqua ion?

Answer 63

Colourless solution

Question 64

What colour is the Iron 3+ metal-aqua ion?

Answer 64

Yellow solution

Question 65

What colour is the copper metal-aqua ion in OH^- or NH₃?

Answer 65

Blue precipitate

Question 66

What colour is the Iron 2+ metal-aqua ion in OH^- or NH₃?

Answer 66

Green precipitate

Question 67

What colour is the Aluminium metal-aqua ion in OH^- or NH₃?

Answer 67

White precipitate

Question 68

What colour is the Iron 3+ metal-aqua ion in OH^- or NH₃?

Answer 68

Brown Precipitate

Question 69

What colour is the Aluminium metal-aqua ion in excess OH^-?

Answer 69

Colourless solution - ppt dissolves.
Other 3 - no change.

Question 70

What colour is the copper metal-aqua ion in excess ammonia?

Answer 70

Deep blue solution - ppt dissolves
Other 3 - no change

Question 71

What colour is the copper metal-aqua ion with Na₂CO?

Answer 71

Forms a green-blue ppt

Question 72

What colour is the Iron 2+ metal-aqua ion with Na₂CO?

Answer 72

Forms a green ppt

Question 73

What colour is the Aluminium metal-aqua ion with Na₂CO?

Answer 73

Forms a white ppt

Question 74

What colour is the Iron 3+ metal-aqua ion with Na₂CO?

Answer 74

Forms a brown ppt