Carbon Dioxide
The ideal O-C-O bond angle is 180^o
The experimental O-C-O bond angle is 180^o









Ozone
The ideal O-O-O bond angle is 120^o
The experimental O-O-O bond angle is 116.8^o









Boron Trifluoride
The ideal F-B-F bond angle is 120^o
The experimental F-B-F bond angle is 120^o









Water
The ideal H-O-H bond angle is 109.5^o
The experimental H-O-H bond angle is 104.5^o









Ammonia
The ideal H-N-H bond angle is 109.5^o
The experimental H-N-H bond angle is 107^o









Methane
The ideal H-C-H bond angle is 109.5^o
The experimental H-C-H bond angle is 109.5^o









Triiodide Ion
The ideal I-I-I bond angle is 180^o
The experimental I-I-I bond angle is 180^o









Chlorine Trifluoride
The ideal F_axial-Cl-F_equitorial bond angle is 90^o
The experimental F_axial-Cl-F_equitorial bond angle is 87.5^o









Sulfur Tetrafluoride
The ideal F_axial-S-F_equitorial bond angle is 90^o
The ideal F_equitorial-S-F_equitorial bond angle is 120^o









Phosphorus Pentachloride
The ideal Cl_axial-P-Cl_equitorial bond angle is 90^o
The ideal Cl_equitorial-P-Cl_equitorial bond angle is 120^o
The experimental Cl_axial-P-Cl_equitorial bond angle is 90^o
The experimental Cl_equitorial-P-Cl_equitorial bond angle is 120^o
The experimental axial P-Cl bond length is 2.19 angstroms
The experimental equitorial P-Cl bond length is 2.04 angstroms









Tetrachloroiodate Ion
The ideal Cl-I-Cl bond angle is 90^o
The experimental Cl-I-Cl bond angle is 90^o
The ion is planar









Bromine Pentafluoride
The ideal F_axial-Br-F_equitorial bond angle is 90^o
The ideal F_equitorial-Br-F_equitorial bond angle is 90^o
The experimental F_axial-Br-F_equitorial bond angle is 86.5^o









Hexafluorophosphate Ion
The ideal F-P-F bond angle is 90^o
The experimental F-P-F bond angle is 90^o