Transition Elements (Chapter 24.1, 24.2 and 24.3)

Question 1

Where are the d-block elements located?

Answer 1

Between Group 2 and 13 of the periodic table

Question 2

What are the d block elements in period 4?

Answer 2

Scandium to Zinc

Question 3

What is true about the 3d sub-shell in d-block elements of period 4?

Answer 3

The 3d sub-shell has the highest energy and electrons are added to 3d orbitals (4s is already filled?

Question 4

What are the characteristics of d-block elements?

Answer 4

The are metallic - ∴ they have metallic properties including a high melting and boiling point, shiny look and the ability to conduct electricity and heat

Question 5

What is the electronic configuration of chromium?

Answer 5

1s2 2s2 2p6 3s2 3p6 4s1 3d5

Question 6

What is the electronic configuration of copper?

Answer 6

1s2 2s2 2p6 3s2 3p6 4s1 3d10

Question 7

Why do chromium and copper have unexpected electronic configurations?

Answer 7

Stability - a half filled 3d5 sub-shell and a fully filled 3d10 sub-shell gives additional stability to atoms of chromium and copper

Question 8

What happens when the d block elements form positive ions from their atoms and what does this mean?

Answer 8

• They lose their 4s electrons before losing any of the 3d electrons
• ∴ when forming an atom, 4s orbitals fill before 3d orbitals
• ∴ when forming an ion, 4s orbitals empties before 3d orbitals

Question 9

What are the transition elements?

Answer 9

D-block elements that form at least one ion with a partially filled orbital

Question 10

Which two period 4 d-block elements are not transition elements and why?

Answer 10

Scandium and zinc bc:

1) scandium only forms Sc3+ ions by loss of two 4s and one 3d electrons, leaving empty d-orbitals (just 3p6)
2) zinc only forms Zn2+ by loss of its two 4s electrons, leaving a full d-orbtial (3d10)

Question 11

What are the characteristic properties of transition metals that make then different from other metals?

Answer 11

1) they form compounds in which the transition element has different oxidation states
2) they form coloured compounds
3) the elements and their compounds can act as catalysts

Question 12

Describe the characteristic of variable oxidation states of transition metals

Answer 12

1) the number of oxidation states increases across the transition elements to manganese and then decreases
2) all of the transition elements form compounds with an oxidation number of +2, resulting from the loss of two electrons
3) each oxidation state often has a characteristic colour

Question 13

Describe the characteristic of the formation of coloured compounds by transition metals

Answer 13

1) the solid compounds can be dissolved in water to produce coloured solutions
2) the colour of a solution is linked to the energy levels of the partially filled d-orbitals of the transition metal ion which depend on the charge of the ion and the ligands involve - it can vary with different oxidation states

Question 14

What colour is CoCl2?

Answer 14

Pink/purple

Question 15

What colour is NiSO4?

Answer 15

Green

Question 16

What colour is CuSO4?

Answer 16

Blue

Question 17

What colours are Fe (II) and Fe (III)?

Answer 17

Fe (II) - pale green

Fe (III) - yellow

Question 18

What colours are Cr (III) and Cr (VI)?

Answer 18

Cr (III) - green

Cr (VI) - yellow/orange

Question 19

What are the common oxidation states that iron forms?

Answer 19

+2 and +3

Question 20

What are the common oxidation states that chromium forms?

Answer 20

+3 and +6

Question 21

Give 4 examples of how transition metals are used as heterogenous catalyst in industrial processes

Answer 21

1) Haber process is catalysed by an iron catalyst
2) Contact process is catalysed by vanadium oxide
3) Hydrogenation of vegetable fats to produce margarine is catalysed by nickel
4) Catalytic decomposition of hydrogen peroxide is catalyse by manganese dioxide

Question 22

Describe two reactions catalysed by a transition metal as a homogenous catalyst

Answer 22

1) Reaction: S2O82- + 2I- => 2SO42- + I2 (ALL aqueous)
- Catalysed by aqueous Fe2+ ions:
S2O82- + Fe2+ => 2SO42- + Fe3+
Fe3+ + 2I- => I2 + Fe2+
2) Reaction: Zn + H2SO4 => ZnSO4 + H2
- Catalysed by aqueous Cu2+ ions

Question 23

What is an important property of d-block elements?

Answer 23

The ability to form complex ions (other non d-block elements can also form them e.g. aluminium)

Question 24

When is a complex ion formed?

Answer 24

When one or more molecules or negatively charged ions (ligands) bond to a central metal ion

Question 25

What is a ligand?

Answer 25

• A molecule or ion that donates a pair of electrons to a central metal ion to form (via) a dative covalent bond/coordinate bond
• Some are neutral, some are negatively charged

Question 26

What is a dative covalent bond/coordinate bond?

Answer 26

A covalent bond formed when one of the bonded atoms provides both of the electrons for the shared pair

Question 27

What does the coordination number indicate?

Answer 27

The number of coordinate bonds attached to the central metal ion

Question 28

How can water act as a ligand?

Answer 28

Each H2O molecule donates a lone pair of electrons from the oxygen atom to the central metal ion to form a coordinate bond

Question 29

What is a monodentate ligand and what are the common examples?

Answer 29

• A ligand that is able to donate one pair of electrons to a central metal ion
• Neutral: H2O, NH3
• -1 charge: Cl-, CN-, OH-

Question 30

What is a bidentate ligand?

Answer 30

A ligand that can donate two lone pairs of electrons to the central metal ion, forming two coordinate bonds

Question 31

Describe the two common bidentate ligands

Answer 31

1) neutral: 1,2-diaminoethane (en) (NH2CH2CH2NH2) - each nitrogen atom donates a lone pair of electrons to the central metal ion forming a coordinate bond
2) 2- charge: ethandioate (oxalate) ion (COOCOO) - each negatively charged oxygen atom donates a lone pair of electrons to the central metal ion

Question 32

What does the shape of a complex ion depend on?

Answer 32

Its coordination number (most common: 4 and 6)

Question 33

Describe the shape of six-coordinate complexes

Answer 33

Octahedral shape with bond angles of 90 degrees

Question 34

Describe the two possible shapes of four-coordinate complexes

Answer 34

1) tetrahedral (most common) - bond angles of 109.5 degrees around the central metal ion e.g. [Co/CuCl4]2-
2) square planar (least common) - bond angles of 90 degrees
- only occurs in complex ions of transition metals with 8 d-electrons in the highest energy d-sub-shell (platinum (II), palladium (II) and gold (III) e.g. [Pt(NH34]2+

Question 35

What is stereoisomerism?

Answer 35

Molecules/compounds with the same structural formula but a different arrangement of atoms in space

Question 36

What are the two types of stereoisomerism that complex ions can display and what does the type depend on?

Answer 36

1) cis-trans (geometric) isomerism
2) optical isomerism
- The type depends on the number and type of ligands attach to the central metal ion and the shape of the complex

Question 37

What complex ions can show cis-trans isomerism?

Answer 37

• Some 4-coordiante and 6-coordinate complex ions containing different monodentate ligands
• Some square planar and octahedral complex ions

Question 38

What complex ions can show both cis-trans and optical isomerism?

Answer 38

Some 6-coordinate complex ions containing monodentate and bidentate ligands

Question 39

What is the difference between cis-trans isomerism in organic chemistry and in complex ions?

Answer 39

Unlike in organic chemistry, in complex ions no double bond is involved and the shape of the complex holds groups in different orientations about the central metal ion

Question 40

Describe when cis-trans isomerism can occur in square planar complex ions

Answer 40

• The complex has no more than two identical ligands attached to the central metal ions
• The ligands are attained in the same plane at the corners of a square with 90 degree bond angles
• e.g. [Pd(NH3)2Cl2] formed from Pd2+, two NH3 and two Cl- ligands

Question 41

Describe the cis-isomer of a square planar complex ion

Answer 41

Two identical groups are adjacent to each other and the coordinate bonds between the identical ligands are 90 degrees apart

Question 42

Describe the trans-isomer of of a square planar complex ion

Answer 42

Two identical groups are opposite each other and the coordinate bonds between the identical ligands are 180 degrees apart

Question 43

When can cis-trans isomerism occur in octahedral complex ions with at least two monodentate ligands?

Answer 43

When the complex contains four of one type of ligand and two of another type of ligand e.g. [Co(NH3)4Cl2]+ (monodentate) or [Co(NH2CH2CH2NH2)2Cl2]+

Question 44

Describe the cis-isomer of an octahedral complex ion with at least monodentate ligands

Answer 44

The two identical ligands (e.g. Cl-) are adjacent with their coordinate bonds separated by 90 degrees

Question 45

Describe the trans-isomer of an octahedral complex ion with at least monodentate ligands

Answer 45

The two identical ligands (e.g. Cl-) are opposite with their coordinate bonds 180 degrees apart

Question 46

What is the colour of cis-[Co(NH3)4Cl2]+?

Answer 46

Violet

Question 47

What is the colour of trans-[Co(NH3)4Cl2]+?

Answer 47

Green

Question 48

What types of complex ions can form optical isomers?

Answer 48

Only the cis-isomers of octahedral complexes with 2 or 3 bidentate ligands

Question 49

Why can only cis-isomers (not trans-isomers) form enantiomers?

Answer 49

Bc a mirror image of a trans-isomer is identical and can be super imposed

Question 50

What is an important isomer and what is it used in?

Answer 50

Cis-platin used in the treatment of cancer

Question 51

How is cis-platin used in cancer treatment?

Answer 51

1) cis platin attacks tumours and shrinks them
2) it does this by forming a platinum complex inside a cell which binds to DNA and prevents it from replicating
3) activation of the cell’s own repair mechanism eventually leads to apoptosis (systematic cell death)

Question 52

Describe the structure of cis-platin

Answer 52

• cis-[Pt(NH3)2(Cl)2]

- Square planar

Question 53

What is the problem with cis-platin?

Answer 53

• It has many unpleasant side-effects and can lead to kidney damage
• However, other clinical trials continue to find other platinum based drugs that may inhibit tumour growth without the side-effects

Question 54

What makes transition elements good catalysts?

Answer 54

Their ability to change oxidation state

Question 55

What is a complex ion?

Answer 55

A central metal ion surrounded by ligands

Question 56

What is a simple ion spelt incorrectly?

Answer 56

A Leon: Someone who loves isabelle very very much because she is a pretty person with a gd bod.