5.5.1 Properties of transition metals

Cards (52)

  • Transition metals are located in the d-block
  • What is the key feature of transition metals according to their definition?
    Partially filled d-orbital
  • Copper (Cu) prefers a 3d<sup>10</sup>4s<sup>1</sup> configuration for stability.

    True
  • The ability of transition metals to form complexes contributes to their variable oxidation states
  • Match the transition metal with its stable electron configuration:
    1️⃣ Chromium (Cr)
    2️⃣ [Ar] 3d<sup>5</sup>4s<sup>1</sup>
    3️⃣ Copper (Cu)
    4️⃣ [Ar] 3d<sup>10</sup>4s<sup>1</sup>
  • What are the oxidation states of iron (Fe)?
    +2, +3
  • Transition metals form intermediate complexes with reactants due to their partially filled d-orbitals.

    True
  • Which transition metal is used as a catalyst in the Haber process?
    Iron
  • What is nickel used as a catalyst in?
    Hydrogenation reactions
  • Why are partially filled d-orbitals important for transition metal catalysis?
    Form intermediate complexes
  • Iron is used in the Haber process to produce ammonia
  • Nickel is used in hydrogenation reactions to produce margarine
  • What are the two main factors affecting the color of transition metal complexes?
    Ligands and oxidation state
  • What is the oxidation state that influences the d-orbital splitting in transition metal complexes?
    Oxidation state
  • Copper(I) chloride is colorless because the Cu<sup>+</sup> ion has a fully filled d-orbital
  • Which two transition metals have exceptional electronic configurations?
    Chromium and Copper
  • Variable oxidation states of transition metals arise from their partially filled d-orbitals.
    True
  • What is the primary reason for the variable oxidation states of transition metals?
    Partially filled d-orbitals
  • Copper (Cu) exhibits oxidation states of +1 and +2 in compounds like Cu<sub>2</sub>O and CuSO<sub>4</sub>
    True
  • What two factors contribute to the catalytic activity of transition metals?
    Variable oxidation states and partially filled d-orbitals
  • Iron (Fe) can cycle between +2 and +3 oxidation states to catalyze reactions.
    True
  • Match the transition metal with its catalytic property:
    Iron (Fe) ↔️ Cycles between +2 and +3 oxidation states
    Platinum (Pt) ↔️ Adsorbs and activates reactant molecules
    Nickel (Ni) ↔️ Forms stable intermediate complexes
  • Ligands bonded to transition metals can affect the splitting of their d-orbitals
  • Why is copper(I) chloride (CuCl) colorless?
    Fully filled d-orbitals
  • Paramagnetism results from unpaired electrons aligning with the magnetic field
  • What are two examples of ferromagnetic materials?
    Iron and Nickel
  • The general electronic configuration for transition metals is (n-1)d<sup>1-10</sup>ns<sup>1-2</sup>
  • Chromium (Cr) prefers a 3d<sup>5</sup>4s<sup>1</sup> configuration for stability.

    True
  • Chromium's stable electron configuration is [Ar] 3d<sup>5</sup>4s<sup>1</sup>
  • What is the typical range of oxidation states for transition metals?
    -2 to +6
  • Where are transition metals located in the periodic table?
    d-block
  • Variable oxidation states in transition metals arise from their partially filled d-orbitals
  • What are the oxidation states of copper (Cu)?
    +1, +2
  • Transition metals participate in redox reactions due to their variable oxidation states
  • Platinum is used in catalytic converters to reduce vehicle emissions.

    True
  • Match the transition metal with its catalytic application:
    Iron (Fe) ↔️ Haber process
    Platinum (Pt) ↔️ Catalytic converters
    Nickel (Ni) ↔️ Hydrogenation reactions
  • Transition metals can only exist in a single oxidation state.
    False
  • What transition metal is used in catalytic converters to reduce vehicle emissions?
    Platinum
  • Transition metals are effective catalysts due to their unique electronic properties.
    True
  • The ligands bonded to a transition metal can affect the splitting of the d-orbitals.