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11 Cards in this Set
- Front
- Back
number of electron domains = 2
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electron geometry - linear
bonding domains - 2 nonbonding domains - 0 molecular geometry - linear |
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number of electron domains = 3
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electron geometry - trigonal planar
bonding domains - 3 nonbonding domains - 0 molecular geometry - trigonal planar OR bonding - 2 nonbonding - 1 molecular geometry - bent (example of bent) the nonbonding is at the top |
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number of electron domains = 4
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electron gemometry - tetrahedral
bonding domains - 4 nonbonding - 0 molecular geometry - tetrahedral OR bonding - 3 nonbonding - 1 molecular geometry - trigonal pyramidal (loose one on top) OR bonding - 2 nonbonding - 2 molecular geometry - bent (loose on top and to the right) |
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number of electron domains = 5
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electron geometry - trigonal bipyramidal
bonding - 5 nonbonding - 0 moleclar geometry - trigonal bipyramidal OR bonding - 4 nonbonding - 1 molecular - seesaw (loose is the upper left) OR bonding - 3 nonbonding - 2 molecular geometry - T-shaped (loose to the upper left and lower left) OR bonding - 2 nonbonding - 2 molecular geometry - linear (loose is upper left, lower lef, and middle right) |
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number of electron domains = 6
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electron geometry - octahedral
bonding - 6 nonbonding - 0 molecular geometry - octahedral OR bonding - 5 nonbonding - 1 molecular - square pyramidal (loose at the center bottom) OR bonding - 4 nonbonding - 2 molecular geometry - square planar (loose is center top and center bottom) |
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axial bond
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a bond that is on the y axis
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equatorial bond
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a bond that is on the x axis
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the most stable electron domain geometry for six electron domains is the?
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octahedron
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bond polarity
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as the difference in electronegativity b/w two atoms increases, so does the the bond polarity
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non-polar covalent bond
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no electronegativity difference b/w two atoms leads to a pur non-polar bond
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dipole moment
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is the vector sum of its bonds dipoles
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