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73 Cards in this Set
- Front
- Back
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shape of 5 bonds no lone pairs
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trigonal bipyramid
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geometry of 5 bonds no lone pairs
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trigonal bipyramid
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bond angles of 5 bonds no lone pairs
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120, 90, 180
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hybridization of 5 bonds no lone pairs
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sp^3d
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bond angle of 2 bonds 0 lone pairs
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180
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shape of 4 bonds 1 lone pair
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see-saw
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bond angles of 4 bonds 1 lone pair
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120, 90, 180
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hybridization of 4 bonds 1 lone pair
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sp3d
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bond angle of 2 bonds 1 lone pairs
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109.5
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shape of 6 bonds 0 lone pair
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octrahedral
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geometry of 4 bonds 1 lone pair
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trigonal bipyramid
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geometry of 6 bonds 0 lone pair
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octrahedral
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bond angle of 6 bonds 0 lone pair
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90, 180
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hydridization of 6 bonds 0 lone pair
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sp3d2
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geometry of 5 bonds 1 lone pair
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octrahedral
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bond angle of 5 bonds 1 lone pair
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90, 180
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bond angle of 5 bonds 1 lone pair
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90, 180
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hybridization of 5 bonds 1 lone pair
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sp3d2
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geometry of 4 bonds 2 lone pairs
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octrahedral
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shape of 4 bonds 2 lone pairs
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square planar
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bond angle of 4 bonds 2 lone pairs
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90, 180
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hybridization of 4 bonds 2 lone pairs
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sp3d2
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geometry of 2 bonds 3 lone pairs
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trigonal bipyramid
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shape of 3 bonds 2 lone pairs
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t-shape
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geometry of 4 bonds 2 lone pairs
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trigonal bipyramid
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bond angles of 4 bonds 2 lone pairs
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90,180
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hybridization of 4 bonds 2 lone pairs
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sp3d
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shape of 2 bonds 0 lone pairs
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linear
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geometry of 2 bonds 0 lone pairs
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linear
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hybridization of 2 bonds 0 lone pairs
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sp
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shape of 5 bonds 1 lone pair
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square pyramid
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shape of 2 bonds 1 lone pairs
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v-shape or bent
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geometry of 2 bonds 1 lone pairs
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trigonal planar
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bond angle of 2 bonds 1 lone pairs
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120
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hybridization of 2 bonds 1 lone pairs
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sp2
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shape of 2 bonds 1 lone pairs
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linear
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bond angle of 2 bonds 1 lone pairs
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180
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hybridization of 2 bonds 1 lone pairs
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sp3d
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shape of 3 bonds 1 lone pairs
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trigonal pyramid
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geometry of 2 bonds 1 lone pairs
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tetrahedral
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hybridization of 2 bonds 1 lone pairs
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sp3
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shape of 4 bonds 0 lone pairs
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tetrahedral
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geometry of 4 bonds 0 lone pairs
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tetrahedral
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bond angle of 4 bonds 0 lone pairs
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109.5
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hybridization of 4 bonds 0 lone pairs
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sp3
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shape of 3 bonds 0 lone pairs
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trigonal planar
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geometry of 3 bonds 0 lone pairs
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trigonal planar
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bond angle of 3 bonds 0 lone pairs
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120
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hybridization of 3 bonds 0 lone pairs
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sp2
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shape of 2 bonds 2 lone pairs
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v-shape or bent
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geometry of 2 bonds 2 lone pairs
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tetrahedral
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bond angle of 2 bonds 2 lone pairs
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109.5
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hybridization of 2 bonds 2 lone pairs
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sp3
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shape of 1 bonds 3 lone pairs
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linear
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geometry
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tetrahedral
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shape of 1 bonds 3 lone pairs
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linear
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bond angle of 1 bonds 3 lone pairs
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180
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hybridization of 1 bonds 3 lone pairs
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sp3
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ionization energy increases or decreases from right to left on the periodic table
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increases
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ionization energy increases or decreases from top to bottom on the p.t.
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decreases
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atomic radius increases or decreases from right to left on the periodic table
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decreases
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atomic radius increases or decreases from top to bottom on the p.t.
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increases
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when do real gases behave most ideally
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high temp low pressure
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the bohr model is only good for ions with how many electrons
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1
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electron affinity has only two general trends what are they?
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halogen=exothermic=negative enthrophy
nobel gas=endothermic=positive enthrophy |
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pi bonds occur from what
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unhybridized p orbitals
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low vapor pressure = a what boiling point
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high boiling point
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why does a high boiling point result in low v.p.?
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high boiling means strong intermolecular forces, which holds the molecules close together
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the average velocity can change depending on what
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molar mass
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average kinetic energy varies only when what varies
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temperature
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during an equilibrium reaction where do the products go on top or bottom
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top
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what is not included in an equilibrium eqn
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solids, liquids, aq solutions
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a long wavelength refers to what level of energy
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low, for example, n=5 -> n=4 would have a fairly long wavelength 5->4 is easy to remove far away from the nucleus
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