Questão 1
Questão
Which of the following are typical properties of a Transition Metal element?
Responda
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They are found in the d-block of the Periodic Table.
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They are found to the right of the 'staircase' in the Periodic Table.
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Each element can have a number of different oxidation states.
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They form brightly coloured compounds.
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They form mainly colourless or white compounds/solutions.
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They only conduct electricity when molten or in solution.
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They are able to form complex ions.
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They can often be used as catalysts.
Questão 2
Questão
Which of the following is the correct electron configuration of Copper (Cu)?
Responda
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[Ar] 3d10 4s1
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[Ar] 3d9 4s2
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[Ar] 3d8 4s3
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[Ar] 4d9 4s2
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[Ar] 4d10 4s1
Questão 3
Questão
When ions are formed from transition metal elements, the 4s electrons are lost first.
Questão 4
Questão
The formal definition of a transition element:
An [blank_start]element[blank_end] which forms at least one [blank_start]stable[blank_end] ion with a [blank_start]partially-filled[blank_end] [blank_start]d-shell[blank_end] of electrons.
Responda
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element
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stable
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partially-filled
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d-shell
Questão 5
Questão
Scandium and Zinc are both d-block and transition metal elements
Questão 6
Questão
Match each definition to the correct term. Multiple labels may be required to complete each definition (some were too long).
Responda
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An atom, ion or molecule that forms a
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co-ordinate bond with a transition metal
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ion using a lone pair of electrons.
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Number of co-ordinate bonds to the TM
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A TM ion surrounded by ligands.
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A complex ion with polydentate ligands
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A ligand which has multiple atoms with
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lone pairs of electrons which bond to
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the TM ion, e.g. EDTA
Questão 7
Questão
Only transition metals are able to form complexes.
Questão 8
Questão
How would you classify the following ligands?
Responda
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monodentate
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unidentate
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hexadentate
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bidentate
Questão 9
Questão
What is the shape of this complex ion?
Responda
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octahedral
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square planar
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tetrahedral
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linear
Questão 10
Questão
What is the shape of this complex ion?
Responda
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octahedral
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tetrahedral
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square planar
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linear
Questão 11
Questão
Complex ions with multidentate ligands are called [blank_start]chelates[blank_end]. Chelates can be used to effectively remove [blank_start]d-block[blank_end] metal ions from solution. If you add a hexadentate ligand such as [blank_start]EDTA[blank_end] to a solution of a transition metal salt, the EDTA will replace all six water [blank_start]ligands[blank_end] in the aqua ion, for example:
[Cu(H2O)6](2+) + EDTA(4-) --> [CuEDTA](2-) + 6H2O
In this equation, [blank_start]two[blank_end] species are replaced by [blank_start]seven[blank_end]. This increase in the number of particles causes a significant increase in [blank_start]entropy[blank_end] which drives the reaction to the right. for this reason chelate complexes with [blank_start]polydentate[blank_end] ligands are favoured over complexes with [blank_start]monodentate[blank_end] ligands. This is known as the chelate effect.
Responda
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chelates
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d-block
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EDTA
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ligands
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two
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seven
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entropy
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polydentate
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monodentate
Questão 12
Questão
Optical isomerism occurs in transition metal complexes when there are two or more bidentate ligands.
Questão 13
Questão
Geometric isomerism occurs in transition metal complexes which are octahedral or tetrahedral in shape.
Questão 14
Questão
When the ligands bond with the transition metal ion, there is [blank_start]repulsion[blank_end] between the electrons in the ligands and the electrons in the d orbitals of the [blank_start]metal ion[blank_end]. That raises the energy of the d orbitals.
However, because of the way the d orbitals are arranged [blank_start]in space[blank_end], it doesn't raise all their energies by the same amount. Instead, it splits them into [blank_start]two groups[blank_end], one group of 2 orbitals with a slightly [blank_start]higher[blank_end] energy level than the other 3.
The size of the energy gap between them varies with the nature of the transition metal ion, its [blank_start]oxidation state[blank_end] (whether it is 3+ or 2+, for example), and the nature of the [blank_start]ligands[blank_end].
When [blank_start]white light[blank_end] is passed through a [blank_start]solution[blank_end] of this ion, some of the energy in the light is used to [blank_start]promote[blank_end] an electron from the lower set of orbitals into a space in the upper set. The amount of energy absorbed in order to promote this electron corresponds to a [blank_start]wavelength[blank_end] of the visible light. We therefore see a combination of the other colours in the spectrum, which often shows as the [blank_start]complementary[blank_end] colour of the one absorbed.
Responda
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repulsion
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metal ion
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in space
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two groups
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higher
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oxidation state
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ligands
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solution
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promote
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wavelength
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white light
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complementary
Questão 15
Questão
Why can transition metals form ions with variable oxidation states?
Responda
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As they can use both their 4s and 3d electrons in bonding.
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As they can form dative covalent (co-ordinate) bonds.
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As their electrons are delocalised within the lattice structure.
Questão 16
Questão
Which two transition metals are found in the catalytic converters of modern cars?
Responda
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Platinum
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Rhodium
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Iron
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Nickel
Questão 17
Questão
A heterogenous catalyst is in the same phase as the reactants.
Questão 18
Questão
What can be done to minimise the costs of using heterogenous catalysts?
Responda
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Increase the surface area - higher surface area = better efficiency.
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Spread the catalyst onto an inert support medium, therefore increasing the surface-to-mass ratio so that a little goes a long way.
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Use less catalyst but dot lumps of it across a surface.
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Increase the concentration of the reactants.
Questão 19
Questão
Catalysts will eventually cease to work.
Questão 20
Questão
When the catalyst is in the same phase as the reactant, an intermediate species is formed.
Questão 21
Questão
What is autocatalysis?
Responda
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When one of the products of the reaction catalyses the reaction.
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When the reaction only begins on the addition of a catalyst.
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When catalysts are used in cars.