Transition Metals

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Created by
Zara B

Cards (125)

  • What is the general property of transition metals related to their electron configuration?
    Transition metals have an incomplete d sub-level in atoms or ions.
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  • What is the electron configuration of Scandium (Sc)?
    1s<sup>2</sup>2s<sup>2</sup>2p<sup>6</sup>3s<sup>2</sup>3p<sup>6</sup>4s<sup>2</sup>3d<sup>1</sup>
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  • What is the electron configuration of Copper (Cu)?
    1s<sup>2</sup>2s<sup>2</sup>2p<sup>6</sup>3s<sup>2</sup>3p<sup>6</sup>4s<sup>1</sup>3d<sup>10</sup>
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  • What is the electron configuration of Zinc (Zn)?
    1s<sup>2</sup>2s<sup>2</sup>2p<sup>6</sup>3s<sup>2</sup>3p<sup>6</sup>4s<sup>2</sup>3d<sup>10</sup>
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  • Why is zinc not considered a transition metal?
    Zinc can only form a +2 ion with a complete d orbital, not an incomplete d orbital.
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  • What are the characteristics of transition metals?
    • Complex formation
    • Formation of coloured ions
    • Variable oxidation states
    • Catalytic activity
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  • What is a complex in chemistry?
    A complex is a central metal ion surrounded by ligands.
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  • What is a ligand?

    A ligand is an atom, ion, or molecule that can donate a lone electron pair.
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  • What is co-ordinate bonding?

    Co-ordinate bonding is when the shared pair of electrons in a covalent bond comes from only one of the bonding atoms.
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  • What is the co-ordination number?

    The co-ordination number is the number of co-ordinate bonds formed to a central metal ion.
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  • What are the types of ligands based on their bonding capabilities?
    • Monodentate: Form one coordinate bond (e.g., H2O, NH3, Cl-)
    • Bidentate: Form two coordinate bonds (e.g., NH2CH2CH2NH2, C2O4<sup>2-</sup>)
    • Multidentate: Form multiple coordinate bonds (e.g., EDTA<sup>4-</sup>)
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  • What happens during substitution reactions involving ligands?
    Ligands can be exchanged without changing the co-ordination number in some cases.
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  • What is the result of the substitution reaction between [Co(H2O)6]<sup>2+</sup> and NH3?
    [Co(NH3)6]<sup>2+</sup> and 6H2O are produced.
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  • What occurs when a high concentration of chloride ions is added to an aqueous ion?
    It leads to a ligand substitution reaction and can change the co-ordination number.
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  • What is the shape of the complex [CuCl<sub>4</sub>]<sup>2-</sup>?
    The shape is tetrahedral.
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  • What happens when solid copper chloride is dissolved in water?
    It forms the aqueous [Cu(H2O)<sub>6</sub>]<sup>2+</sup> complex, not the chloride [CuCl<sub>4</sub>]<sup>2-</sup> complex.
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  • What is haem in relation to transition metals?
    Haem is an iron(II) complex with a multidentate ligand.
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  • What is the chelate effect?

    The chelate effect is the increased stability of a complex when a monodentate ligand is replaced by a bidentate or multidentate ligand.
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  • How does the substitution of ligands affect the stability of complexes?
    Substituting monodentate ligands with bidentate or multidentate ligands leads to a more stable complex.
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  • What is the reaction when [Cu(H2O)<sub>6</sub>]<sup>2+</sup> reacts with EDTA<sup>4-</sup>?

    [Cu(EDTA)]<sup>2-</sup> and 6H<sub>2</sub>O are produced.
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  • What is the significance of the stability of EDTA complexes?
    EDTA complexes can remove poisonous heavy metal ions and are used in shampoos to remove calcium ions.
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  • How do you calculate the concentration of copper(II) ions in a river water sample using EDTA titration?
    Concentration = moles of Cu<sup>2+</sup> / volume of sample.
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  • What is the first step in calculating the concentration of copper(II) ions in the river water sample?
    Find moles of EDTA<sup>4-</sup> using moles = concentration x volume.
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  • What is the second step in calculating the concentration of copper(II) ions in the river water sample?
    Use the balanced equation to find moles of Cu<sup>2+</sup> from moles of EDTA<sup>4-</sup>.
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  • What is the final step in calculating the concentration of copper(II) ions in the river water sample?
    Find concentration of Cu<sup>2+</sup> in 25 cm<sup>3</sup> using the formula concentration = moles / volume.
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  • What is the common shape of transition metal complexes with small ligands?
    Octahedral.
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  • What shape do transition metal ions form with larger ligands?
    Tetrahedral.
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  • What is the shape of square planar complexes?

    Square planar complexes have a square shape.
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  • What types of isomerism can complex ions show?
    Complex ions can show cis-trans isomerism and optical isomerism.
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  • What causes colour changes in transition metal complexes?
    Colour changes arise from changes in oxidation state, co-ordination number, or ligand.
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  • How does colour arise in transition metal complexes?
    Colour arises from electronic transitions between different d orbitals when visible light is absorbed.
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  • What happens when the ligand or coordination number changes in a complex?
    It alters the energy split between the d-orbitals, changing the frequency of light absorbed.
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  • What is the equation that links the energy difference between split d orbitals with the frequency of light absorbed?

    ΔE = hv
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  • What is Planck's constant?
    Planck's constant is 6.63 × 10<sup>-34</sup> J s.
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  • What is the speed of light?
    The speed of light is 3.00 × 10<sup>8</sup> m/s.
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  • Why do compounds like Scandium and Zinc not exhibit colour?
    Scandium has no d electrons, and Zinc has a full d shell, so there is no energy transfer equal to visible light.
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  • What is the relationship between oxidation state and colour in transition metal complexes?
    Changes in oxidation state can lead to colour changes in transition metal complexes.
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  • How does the presence of ligands affect the energy levels of d orbitals?
    Ligands cause the 5 d orbitals to split into two energy levels.
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  • What happens to the colour of a complex when it absorbs light?
    The complex appears in the complementary colour of the light absorbed.
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  • What is the formula for the energy difference between split d orbitals in terms of wavelength?

    ΔE = hc/λ
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