C2.2.3 Metallic Bonding

    Cards (35)

    • The structure of metals involves a regular lattice arrangement of positive metal ions
    • What type of attraction holds metal ions and delocalized electrons together in metallic bonding?
      Electrostatic
    • Steps to describe the structure of metals
      1️⃣ Regular lattice arrangement of positive metal ions
      2️⃣ Surrounded by a sea of delocalized electrons
      3️⃣ Electrons move freely throughout the lattice
    • The delocalized electrons in metals enable high electrical and thermal conductivity.
      True
    • The structure of metals involves a regular lattice arrangement of positive metal ions
    • The sea of delocalized electrons in metals allows them to conduct heat efficiently.

      True
    • What does the Electron Sea Model describe?
      Structure and bonding in metals
    • Mobile delocalized electrons in metals carry electric current.
    • What are the key features of metallic bonding?
      Regular lattice, delocalized electrons, electrostatic attraction
    • Metals are good conductors of heat because delocalized electrons transfer energy.
    • Metals have high thermal conductivity because delocalized electrons can efficiently transfer heat energy.

      True
    • Why are metals malleable and ductile?
      Regular lattice can slide
    • What is the arrangement of positive metal ions in metallic bonding?
      Regular lattice arrangement
    • Delocalized electrons in metallic bonding are attracted to positive metal ions.

      True
    • The Electron Sea Model describes metals as having a sea of delocalized electrons.
    • Why do metals have high electrical conductivity?
      Delocalized electrons can move freely
    • Match the bonding type with its description:
      Metallic Bonding ↔️ Regular lattice of positive ions with delocalized electrons
      Ionic Bonding ↔️ Crystal lattice of positive and negative ions
      Covalent Bonding ↔️ Sharing of electrons between atoms
    • Metals are used as heat sinks due to their high thermal conductivity.
    • Delocalized electrons in metals move freely throughout the lattice.

      True
    • Metals have high electrical and thermal conductivity due to mobile electrons
    • The electrostatic attraction between positive metal ions and delocalized electrons is called metallic bonding.
    • What is the bonding in metals called?
      Metallic bonding
    • Why are metals good conductors of electricity?
      Mobile delocalized electrons
    • In the electron sea model, positive metal ions are surrounded by delocalized electrons.
    • Delocalized electrons in metals are attached to individual atoms.
      False
    • Steps to explain the Electron Sea Model
      1️⃣ Delocalized electrons move freely
      2️⃣ Positive metal ions are arranged in a lattice
      3️⃣ Electrical conductivity results from electron mobility
      4️⃣ Thermal conductivity is due to heat transfer by electrons
    • Delocalized electrons in metals move freely, resulting in high electrical conductivity.

      True
    • What is the role of positive metal ions in the Electron Sea Model?
      Arrange in a regular pattern
    • Metals have high electrical conductivity because delocalized electrons in the metallic lattice can move freely.
    • Metallic bonding involves a regular lattice of positive metal ions and delocalized electrons.
      True
    • Metals have high electrical and thermal conductivity due to their mobile electrons
    • What holds the positive metal ions in a metal structure together?
      Electrostatic attraction
    • Delocalized electrons in the Electron Sea Model are attached to specific atoms.
      False
    • Metals are malleable and ductile because the lattice of metal ions can slide past each other.
    • What property of metals makes them suitable for electrical wiring?
      High electrical conductivity
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