3.2.6.3 Reactions with Ligands

    Cards (53)

    • In coordinate covalent bonding, ligands donate their electron pairs to the central metal, forming a covalent bond.
    • Dative bonding is a special case of coordinate covalent bonding where the ligand donates both electrons in the bond.
    • The central metal ion in a complex ion is positively charged.
    • The coordination number of a complex ion refers to the number of ligands bonded to the central metal ion.
    • In dative bonding, the ligand donates both electrons in the bond.
    • The central metal ion in a complex ion is positively charged.

      True
    • The coordination number of a complex ion is the number of ligands bonded to the central metal ion.
    • Ligands donate electron pairs to the central metal ion in a complex ion.

      True
    • The shape of a complex ion is often tetrahedral, octahedral, or square planar.
    • What is dative bonding a special case of?
      Coordinate covalent bonding
    • Match the bonding type with an example:
      Coordinate Covalent Bonding ↔️ NH<sub>3</sub> bonding to Cu<sup>2+</sup>
      Dative Bonding ↔️ N bonding to B in BF<sub>3</sub>
    • Match the complex ion with its example:
      Hexaamminecopper(II) ion ↔️ [Cu(NH₃)₆]²⁺
      Hexaaquairon(III) ion ↔️ [Fe(H₂O)₆]³⁺
    • Complex ions can have tetrahedral, octahedral, or square planar shapes.

      True
    • Match the bonding type with an example:
      Coordinate Covalent Bonding ↔️ H₂O bonding to Fe<sup>3+</sup>
      Dative Bonding ↔️ O bonding to B in B(OH)₃
    • Ligands in complex ions donate their electron pairs to the central metal ion.
    • Complex ions are formed when a central metal ion bonds to one or more ligands through coordinate covalent bonding.
    • Match the complex ion with its example:
      [Cu(NH₃)₆]²⁺ ↔️ Hexaamminecopper(II) ion
      [Fe(H₂O)₆]³⁺ ↔️ Hexaaquairon(III) ion
    • Order the steps involved in forming a complex ion through coordinate bonding:
      1️⃣ Central metal ion accepts electrons
      2️⃣ Ligands donate electron pairs
      3️⃣ Coordinate bonds are created
    • Match the bonding mechanism with its description:
      Coordinate Covalent Bonding ↔️ Ligand donates electron pair
      Dative Bonding ↔️ Ligand donates both electrons
    • Coordination numbers refer to the number of ligands bonded to the central metal ion.

      True
    • What is the coordination number of water as a ligand?
      6
    • What is the coordination number of ethylenediamine (en)?
      2
    • Describe the process of forming a complex ion:
      1️⃣ Central metal ion accepts electrons
      2️⃣ Ligands donate electron pairs
      3️⃣ Coordinate bonds are created
    • Complex ion stability is quantified by the stability constant.
    • Complexes with NH₃ are more stable than complexes with H₂O due to higher ligand basicity.

      True
    • A complex ion can form an insoluble salt if it reacts with another ion.
      True
    • What are ligands defined as?
      Molecules or ions
    • In dative bonding, the ligand donates both electrons in the bond.

      True
    • How are complex ions formed?
      Coordinate covalent bonding
    • What determines the charge of a complex ion?
      Metal ion and ligands
    • What is the primary bonding mechanism in complex ions?
      Coordinate covalent bonding
    • What type of bonding is involved in the formation of complex ions?
      Coordinate covalent bonding
    • What are common shapes of complex ions?
      Tetrahedral, octahedral, square planar
    • What is the role of the central metal ion in a complex ion?
      Accepts electrons
    • What determines the charge of a complex ion?
      Metal ion and ligands
    • In coordinate covalent bonding, ligands donate electron pairs to the central metal.

      True
    • In dative bonding, what type of electron donation occurs?
      Both electrons
    • What is a common ligand in coordination chemistry?
      A molecule or ion
    • Ammonia (NH₃) has a coordination number of 6 as a ligand.

      True
    • Coordination numbers refer to the number of ligands that can bind to a metal ion.
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