tetrahedralThemolecularshape ofCH4conductivityIoniccompoundshave this onlyin the molten oraqueous state90 and180The bondangles for anoctahedralmolecule109.5The bondangle for atetrahedralmoleculesquarepyramidalThemolecularshape ofICl5sp2Thehybridizationof the carbonatoms inetheneelectronegativityTheattraction ofelectrons ina bondT-shapedThemolecularshape ofICl3metallicbondingBondingtypewithinmetalstrigonalpyramidalThemolecularshape ofNH3networkcovalentbondingBonding typepresent indiamond andgraphite104.5The bondangle fora bentmoleculeformalchargeMethod usedto determinethe preferredLewisStructure107The bondangle for atrigonalpyramidalmoleculedipole-dipoleforcesIMF presentbetweenpolarmoleculesLondondispersionforcesIMF presentbetweennonpolarmoleculesdelocalizedelectronsElectronsthat do notbelong to asingle atommoleculargeometryGeometry basedon the number ofbonding vsnonbondingelectrons aroundan atomoctetWhen there are8 electronsaround an atomin a moleculeexpandedoctetWhen there aremore than 8electronsaround an atomin a moleculepolarmoleculeA moleculewith anoveralldipolemomentcovalentbondingBonding typeformedbetweennonmetalsionicbondingBonding typeformedbetweenmetal andnonmetaltrigonalplanarThemolecularshape ofBH3nonpolarmoleculeA moleculewhere allthe dipolescancelsquareplanarThemolecularshape ofXeCl4120The bondangle for atrigonalplanarmoleculetrigonalbipyramidalThemolecularshape ofPCl5volatilityThe abilityfor asubstance toevaporateelectrondomaingeometryGeometry basedon number oflocations ofelectrons aroundan atombentThemolecularshape ofwaterlatticeAn organizedstructuremade ofrepeatingionssigmabondA bondformed fromthe overlapof s orbitalsCFCType ofmoleculethat causesozonedepletion180The bondangle fora linearmoleculepibondA bondformed fromthe overlapof parallel porbitalshybridizationThe mixing ofdifferenttypes oforbitals withinan atom.coordinatecovalentbondBond formedfrom 2electronsdonated fromthe same atomoctahedralThemolecularshape ofSF6linearThemolecularshape ofCO290, 120,and 180The bondangles for atrigonalbipyramidalmoleculeseesawThemolecularshape ofSCl4hydrogenbondingIMF presentbetween polarmoleculeswith H bondedto N, O, or FspThehybridizationof the carbonatoms inethynecationApositivelychargedionsp3Thehybridizationof the carbonatoms inethanesolubilityBased on"likedissolveslike"resonance2 or moredifferentarrangementsfor electronsin a moleculeanionAnegativelychargedionbondorderThe number ofbondingelectron pairsshared by twoatoms in amoleculetetrahedralThemolecularshape ofCH4conductivityIoniccompoundshave this onlyin the molten oraqueous state90 and180The bondangles for anoctahedralmolecule109.5The bondangle for atetrahedralmoleculesquarepyramidalThemolecularshape ofICl5sp2Thehybridizationof the carbonatoms inetheneelectronegativityTheattraction ofelectrons ina bondT-shapedThemolecularshape ofICl3metallicbondingBondingtypewithinmetalstrigonalpyramidalThemolecularshape ofNH3networkcovalentbondingBonding typepresent indiamond andgraphite104.5The bondangle fora bentmoleculeformalchargeMethod usedto determinethe preferredLewisStructure107The bondangle for atrigonalpyramidalmoleculedipole-dipoleforcesIMF presentbetweenpolarmoleculesLondondispersionforcesIMF presentbetweennonpolarmoleculesdelocalizedelectronsElectronsthat do notbelong to asingle atommoleculargeometryGeometry basedon the number ofbonding vsnonbondingelectrons aroundan atomoctetWhen there are8 electronsaround an atomin a moleculeexpandedoctetWhen there aremore than 8electronsaround an atomin a moleculepolarmoleculeA moleculewith anoveralldipolemomentcovalentbondingBonding typeformedbetweennonmetalsionicbondingBonding typeformedbetweenmetal andnonmetaltrigonalplanarThemolecularshape ofBH3nonpolarmoleculeA moleculewhere allthe dipolescancelsquareplanarThemolecularshape ofXeCl4120The bondangle for atrigonalplanarmoleculetrigonalbipyramidalThemolecularshape ofPCl5volatilityThe abilityfor asubstance toevaporateelectrondomaingeometryGeometry basedon number oflocations ofelectrons aroundan atombentThemolecularshape ofwaterlatticeAn organizedstructuremade ofrepeatingionssigmabondA bondformed fromthe overlapof s orbitalsCFCType ofmoleculethat causesozonedepletion180The bondangle fora linearmoleculepibondA bondformed fromthe overlapof parallel porbitalshybridizationThe mixing ofdifferenttypes oforbitals withinan atom.coordinatecovalentbondBond formedfrom 2electronsdonated fromthe same atomoctahedralThemolecularshape ofSF6linearThemolecularshape ofCO290, 120,and 180The bondangles for atrigonalbipyramidalmoleculeseesawThemolecularshape ofSCl4hydrogenbondingIMF presentbetween polarmoleculeswith H bondedto N, O, or FspThehybridizationof the carbonatoms inethynecationApositivelychargedionsp3Thehybridizationof the carbonatoms inethanesolubilityBased on"likedissolveslike"resonance2 or moredifferentarrangementsfor electronsin a moleculeanionAnegativelychargedionbondorderThe number ofbondingelectron pairsshared by twoatoms in amolecule

IB Chemistry HL Bonding Bingo 2 - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. The molecular shape of CH4
    tetrahedral
  2. Ionic compounds have this only in the molten or aqueous state
    conductivity
  3. The bond angles for an octahedral molecule
    90 and 180
  4. The bond angle for a tetrahedral molecule
    109.5
  5. The molecular shape of ICl5
    square pyramidal
  6. The hybridization of the carbon atoms in ethene
    sp2
  7. The attraction of electrons in a bond
    electronegativity
  8. The molecular shape of ICl3
    T-shaped
  9. Bonding type within metals
    metallic bonding
  10. The molecular shape of NH3
    trigonal pyramidal
  11. Bonding type present in diamond and graphite
    network covalent bonding
  12. The bond angle for a bent molecule
    104.5
  13. Method used to determine the preferred Lewis Structure
    formal charge
  14. The bond angle for a trigonal pyramidal molecule
    107
  15. IMF present between polar molecules
    dipole-dipole forces
  16. IMF present between nonpolar molecules
    London dispersion forces
  17. Electrons that do not belong to a single atom
    delocalized electrons
  18. Geometry based on the number of bonding vs nonbonding electrons around an atom
    molecular geometry
  19. When there are 8 electrons around an atom in a molecule
    octet
  20. When there are more than 8 electrons around an atom in a molecule
    expanded octet
  21. A molecule with an overall dipole moment
    polar molecule
  22. Bonding type formed between nonmetals
    covalent bonding
  23. Bonding type formed between metal and nonmetal
    ionic bonding
  24. The molecular shape of BH3
    trigonal planar
  25. A molecule where all the dipoles cancel
    nonpolar molecule
  26. The molecular shape of XeCl4
    square planar
  27. The bond angle for a trigonal planar molecule
    120
  28. The molecular shape of PCl5
    trigonal bipyramidal
  29. The ability for a substance to evaporate
    volatility
  30. Geometry based on number of locations of electrons around an atom
    electron domain geometry
  31. The molecular shape of water
    bent
  32. An organized structure made of repeating ions
    lattice
  33. A bond formed from the overlap of s orbitals
    sigma bond
  34. Type of molecule that causes ozone depletion
    CFC
  35. The bond angle for a linear molecule
    180
  36. A bond formed from the overlap of parallel p orbitals
    pi bond
  37. The mixing of different types of orbitals within an atom.
    hybridization
  38. Bond formed from 2 electrons donated from the same atom
    coordinate covalent bond
  39. The molecular shape of SF6
    octahedral
  40. The molecular shape of CO2
    linear
  41. The bond angles for a trigonal bipyramidal molecule
    90, 120, and 180
  42. The molecular shape of SCl4
    seesaw
  43. IMF present between polar molecules with H bonded to N, O, or F
    hydrogen bonding
  44. The hybridization of the carbon atoms in ethyne
    sp
  45. A positively charged ion
    cation
  46. The hybridization of the carbon atoms in ethane
    sp3
  47. Based on "like dissolves like"
    solubility
  48. 2 or more different arrangements for electrons in a molecule
    resonance
  49. A negatively charged ion
    anion
  50. The number of bonding electron pairs shared by two atoms in a molecule
    bond order