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Formula Dot Requirement wale Models Det Formula Electronic Geometry Molecular Geometry Circle Report Form F:B:F Symmetrical...
Formula Dot Requirement Dot Formula Electronic Geometry (Circle one) F:B:F N=8+ 4(8) 40 A = 3 + 4(7) + 1 = 32 S = 8 Molecular Geometry F 1 B. F F F Tetrahedral Symmetrical N BF, tetrahedral Not shared Polar Y N hybridization sp 24 T! T 1s 2s 2p NE 40 A = 32 SE 8 Symmetrical Y N CCI, Polar Y N Not shared 24 hybridization Symmetrical Y N N= A= S H Se Polar Y N...
Formula Dot Requirement Dot Formula Electronie Geometry Molecular Geometry Circle one) vlar Models Report Form N A= S Symmetrical Y N Polar Y N hybridization HgBr, Not shared Symmetrical Y N N= A SE PO," Polar Y N hybridization Not shared = Symmetrical Y N N- A- S = Polar Y CH,Br, N hybridization Not shared • Dot formula is an exception to rules Mular Models Formula Dot Requirement Dot Formula Electronic Geometry Molecular Geometry (Circle one) Report Form Symmetrical...
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Formula Dot Requirement Dot Formula (Circle one) Electronic Geometry - (2) : (3a) 9 (1) N=8+5(8) 40 A=8+4(7) +1 = 32 S= 8 Molecular Geometry (7a) F B. F (7b) Tetrahedral B R:: F :: :B:F: BF (3b) tetrahedral (8a) Symmetrical YN (8b) Polar Y N (4b) hybridization sp Not shared -24 (4a) t+ 1 1s 2s 2p (2) (3a) (7a) (1) N= A= S= (8a) Symmetrical Y N (8b) Polar Y N HON...
Formula Dot Requirement Dot Formula Electronic Geometry Molecular Geometry (Circle one) N= A = S = Symmetrical Y N NH, Polar Y N Not shared = hybridization NE A= S. Symmetrical N Bro, Polar Y N Not shared = hybridization Symmetrical Y N N A- S= Polar AsF Y N Not shared hybridization * Dot formula is an exception to rules.
Formula Dot Requirement Dot Formula Electronic Geometry Molecular Geometry (Circle one) Symmetrical Y N N= A= S = HgBr, Polar Y N hybridization Not shared =
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Х Lab 11.pdf Lab 11.pdf INTRODUCTION The chemical and physical properties of substances are influenced by the way in which valence electrons are distributed and by the three-dimensional shape of the molecule or ion. X- ray and neutron diffraction, infrared, Raman and microwave absorption spectroscopy, as well as dipole moment measurements, are used to ascertain the three-dimensional structure of a substance. Thus, techniques are available which can identify the geometry of substances Results of...
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INTRODUCTION The chemical and physical properties of substances are influenced by the way in which valence electrons are distributed and by the three-dimensional shape of the molecule or ion. X- ray and neutron diffraction, infrared, Raman and microwave absorption spectroscopy, as well as dipole moment measurements are used to ascertain the three-dimensional structure of a substance. Thus, techniques are available which can identify the geometry of substances. Results of these measurements generally...