All Bonds and Chemical Bonds

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Created by
Uzayr Chowdhery

Cards (45)

  • What is a chemical bond compared to?
    A strong friendship between atoms
  • How do atoms bond?
    By sharing or transferring electrons
  • Why do atoms bond together?
    To become more stable
  • What do molecules build?
    Everything around us
  • What are electrons?
    Tiny particles within atoms
  • What is the result of bonding between atoms?
    Atoms become more stable
  • What happens to sodium and oxygen after electron transfer?
    They become oppositely charged ions
  • What is the result of the attraction between oppositely charged ions?
    It creates a strong ionic bond
  • What do bonded atoms form?
    Molecules
  • What forms when atoms lose or gain electrons?
    Ionic bond
  • What is the term used to describe the electrons that are not shared between atoms in the image?
    Unpaired valence electrons
  • How do sodium (Na) and oxygen (O) interact to form an ionic bond?
    Sodium transfers electrons to oxygen
  • What forms a covalent bond?
    Atoms share their outermost electrons
  • If the positive metal ions were not surrounded by delocalised electrons, how would this affect the metal's ability to conduct electricity?
    The metal would not be able to conduct electricity
  • When do covalent bonds typically form?
    Between nonmetals or metalloids with similar electronegativity
  • How do covalent bonds contribute to atomic stability?
    They make the atoms more stable
  • How do covalent bonds differ from ionic bonds?
    Covalent bonds involve shared electrons, ionic bonds involve transferred electrons
  • What is the purpose of the arrow in the "Sharing of available valence electrons" image?
    To show the transfer of valence electrons between atoms
  • What type of structure do covalent bonds create?
    Separate molecules
  • What is the effect of shared electrons in a covalent bond?
    They create a force that holds atoms together
  • What type of structure do ionic bonds create?
    Lattice structures
  • How do delocalized electrons behave in metallic bonds?
    They move freely around positive metal ions
  • What occurs in metallic bonds?
    Metal atoms donate outer electrons
  • How does the arrangement of positive metal ions and delocalised electrons in the image explain the high electrical conductivity of metals?
    • The delocalised electrons can move freely between the positive metal ions
    • This allows for the easy flow of electric current through the metal
    • The high mobility of the delocalised electrons results in high electrical conductivity
  • What allows metals to conduct electricity well?
    The constant movement of delocalized electrons
  • How do metallic bonds differ from ionic and covalent bonds?
    They create a lattice structure shared by all atoms
  • What is the name of the model shown in the image that explains the structure of metals?
    Metallic bonding
  • What do the colors red and blue represent in the electrostatic potential maps?
    Red corresponds to a buildup of negative charge, blue represents a buildup of positive charge
  • What are the key characteristics of metallic bonds?
    • Metal atoms donate outer electrons
    • Formation of a "sea" of delocalized electrons
    • Free movement of electrons around positive ions
    • Lattice structure shared by all atoms
    • High electrical conductivity due to electron movement
  • What is the source of strength in chemical bonds?
    Forces that hold atoms together
  • What information do electrostatic potential maps provide?
    • Electrostatic potential maps show the distribution of electric charge within a molecule
    • Red regions indicate a buildup of negative charge, blue regions indicate a buildup of positive charge
    • This information is useful for understanding molecular interactions and reactivity
  • What do darker colors in electrostatic potential maps indicate?
    Stronger charge
  • What do red areas in electrostatic potential maps indicate?
    Negative charge concentration
  • How do covalent bonds hold atoms together?
    By sharing electron pairs
  • What do blue areas in electrostatic potential maps represent?
    Positive charge concentration
  • What does the color gradient in electrostatic potential maps show?
    Relative charge density
  • How do more electronegative atoms behave in covalent bonds?
    They attract electrons more strongly
  • What causes electrostatic forces in ionic bonds?
    Attraction between oppositely charged ions
  • What do oxygen and hydrogen atoms do in water?
    Share electrons to form stable molecules
  • What are the key differences between ionic and covalent bonds?
    • Ionic bonds:
    • Formed by electrostatic forces
    • Involve transfer of electrons
    • Example: Sodium chloride (NaCl)

    • Covalent bonds:
    • Formed by sharing electron pairs
    • Involve sharing of electrons
    • Example: Water (H₂O)