Final Exam Flashcards
(16 cards)
How do you calculate percent yield?
Percentage Yield = [mass of Actual Yield/mass of Theoretical Yield] x 100%
How do you calculate percent error?
Percent error = ([accepted value - experimental value]/accepted value) x 100%
How do you calculate absolute error?
Absolute Error = Actual Value - Measured Value
Electron Domains: 2 Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 2
Name Electron-Domain Geometry of Atom: Linear
Name Predicted Bond Angle(s): 180 degrees
Name Orbital Hybridization of Atom: sp
Name Molecular Geometry of Atom: Linear
Electron Domains: 3 (all bonded) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 3 (all bonded)
Name Electron-Domain Geometry of Atom: Trigonal Planar
Name Predicted Bond Angle(s): 120 degrees
Name Orbital Hybridization of Atom: sp2
Name Molecular Geometry of Atom: Trigonal Planar
Electron Domains: 3 (2 bonded, 1 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 3 (2 bonded, 1 non-bonding)
Name Electron-Domain Geometry of Atom: Trigonal Planar
Name Predicted Bond Angle(s): 120 degrees
Name Orbital Hybridization of Atom: sp2
Name Molecular Geometry of Atom: Bent
Electron Domains: 4 (all bonded) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 4 (all bonded)
Name Electron-Domain Geometry of Atom: Tetrahedral
Name Predicted Bond Angle(s): 109.5 degrees
Name Orbital Hybridization of Atom: sp3
Name Molecular Geometry of Atom: Tetrahedral
Electron Domains: 4 (3 bonded, 1 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 4 (3 bonded, 1 non-bonding)
Name Electron-Domain Geometry of Atom: Tetrahedral
Name Predicted Bond Angle(s): 109.5 degrees
Name Orbital Hybridization of Atom: sp3
Name Molecular Geometry of Atom: Trigonal pyramidal
Electron Domains: 4 (2 bonded, 2 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 4 (2 bonded, 2 non-bonding)
Name Electron-Domain Geometry of Atom: Tetrahedral
Name Predicted Bond Angle(s): 109.5 degrees
Name Orbital Hybridization of Atom: sp3
Name Molecular Geometry of Atom: Bent
Electron Domains: 5 (all bonded) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 5 (all bonded)
Name Electron-Domain Geometry of Atom: Trigonal Bipyramidal
Name Predicted Bond Angle(s): 90° axial, 120° equatorial
Name Orbital Hybridization of Atom: sp3d
Name Molecular Geometry of Atom: Trigonal Bipyramidal
Electron Domains: 5 (4 bonded, 1 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 5 (4 bonded, 1 non-bonding)
Name Electron-Domain Geometry of Atom: Trigonal Bipyramidal
Name Predicted Bond Angle(s): 90° axial, 120° equatorial
Name Orbital Hybridization of Atom: sp3d
Name Molecular Geometry of Atom: seesaw
Electron Domains: 5 (3 bonded, 2 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 5 (3 bonded, 2 non-bonding)
Name Electron-Domain Geometry of Atom: Trigonal Bipyramidal
Name Predicted Bond Angle(s): 90° axial, 120° equatorial
Name Orbital Hybridization of Atom: sp3d
Name Molecular Geometry of Atom: T-shaped
Electron Domains: 5 (2 bonded, 3 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 5 (2 bonded, 3 non-bonding)
Name Electron-Domain Geometry of Atom: Trigonal Bipyramidal
Name Predicted Bond Angle(s): 90° axial, 120° equatorial
Name Orbital Hybridization of Atom: sp3d
Name Molecular Geometry of Atom: Linear
Electron Domains: 6 (all bonded) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 6 (all bonded)
Name Electron-Domain Geometry of Atom: Octahedral
Name Predicted Bond Angle(s): 90 degrees
Name Orbital Hybridization of Atom: sp3d2
Name Molecular Geometry of Atom: Octahedral
Electron Domains: 6 (5 bonded, 1 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 6 (5 bonded, 1 non-bonding)
Name Electron-Domain Geometry of Atom: Octahedral
Name Predicted Bond Angle(s): 90 degrees
Name Orbital Hybridization of Atom: sp3d2
Name Molecular Geometry of Atom: Square pyramidal
Electron Domains: 6 (4 bonded, 2 non-bonding) Name Electron-Domain Geometry of Atom: Name Predicted Bond Angle(s): Name Orbital Hybridization of Atom: Name Molecular Geometry of Atom:
Electron Domains: 6 (4 bonded, 2 non-bonding)
Name Electron-Domain Geometry of Atom: Octahedral
Name Predicted Bond Angle(s): 90 degrees
Name Orbital Hybridization of Atom: sp3d2
Name Molecular Geometry of Atom: Square planar