1. Make the following molecules or ions with your modeling kits and complete the table. Number...
I. Continued Number on central atom: Lone Formula Bonds pairs Draw proper Lewis structure (wedges, dashes Bond angles) lone pairs, charge) idealized Hybridization (central atom) Molecular Geometry (name) H.O.
Make the following polyatomic organic compounds with your modeling kits. Draw the proper Lewis structure (wedges, dashes and lone pairs) and, when needed, label all the atoms in with their formal charges. What is the hybridization of each carbon atom? Which molecules have a net dipole moment (i.e. which are polar molecules)? Hybridization of Carbon Atom(s) Polar Proper Lewis Structure with formal charges 1,1-Difluoroethene: H2CCF2 (yes/no) a. b. Hydrogen cyanide: HCN Methanol: CH,OH c. Formic Acid: HCOOH d.
3. Use each of the molecules or ions in question #2 to complete the table below. No. formula VSEPR Molecular geometry Electronic geometry Bond angles** NH NO Nон, H.COCH CO, BF, C, ΗΝΟ, сн. H,SO CF a SO **Bond angles around the central atom(s) based on the molecular geometry.** 90 Lewis Structure
IBra 1. Lewis Structure 2. Perspective drawing 3. Steric Number of central 4. # of atoms bonded to atom 5. #of lone electron pairs on central atom 6. Electronic geometry central atom 9. Molecular polarity 7. Molecular geometry 8. Bond angles 10. Hybridization of central atom N H (HN-NH) 2. Perspective drawing 1. Lewis Structure 5, #of lone electron pairs 3. Steric Number of central 4. # of atoms bonded to 6. Electronic geometry central atom on central atom atom...
Substance H202 NF: CS Lewis structures Number of bonding groups Complete the following table for the twenty molecules and polyatomic ions listed. Results should be checked with other students in the class or the appropriate Chapters in the text. Number of lone pairs Number of electron groups about the central atom Electron geometry Molecular geometry Approximate bond angles Polarity of molecule or ion Number of resonance structures Hybridization state about the central atom
3. Use each of the molecules or ions in question #2 to complete the table below. No. VSEPR formula Molecular geometry Electronic geometry Bond angles** ΝΗ, 2 NO NOH, HCOCH co, BF, нсо, PH; ICI, ΗΝΟ, CH CH, H.SO CF,CI so | 25 **Bond angles around the central atom(s) based on the molecular geometry.**
Experiment 12 Shapes of Molecules Ion E Lewis structure Hybridization [130]+ Number of valence electrons Number of cand it bonds Molecular shape Number of bonded atoms on central atom Number of lone pairs Polarity Bonded-atom lone- pair arrangement on central atom Bond angles Bond order Central atom steric number Molecule F Lewis structure Hybridization BrNS Number of valence electrons Number of oand it bonds Number of bonded atoms Molecular shape on central atom Bonded-atom lone- Polarity Number of lone pairs...
N2H4 (H2N-NH2) 1. Lewis Structure 2. Perspective drawing 3. Steric Number of central 4. # of atoms bonded to 5. #of lone electron pairs 6. Electronic geometry central atom on central atom atom 7. Molecular geometry 8. Bond angles 9. Molecular polarity 10. Hybridization of central atom SO42 N2H4 (H2N-NH2) 1. Lewis Structure 2. Perspective drawing 3. Steric Number of central 4. # of atoms bonded to 5. #of lone electron pairs 6. Electronic geometry central atom on central atom...
ASF5 1. Lewis Structure 2. Perspective drawing 6. Electronic geometry 3. Steric Number of central 4. #of atoms bonded to 5.#of lone electron pairs central atom on central atom atom 7. Molecular geometry 8. Bond angles 9. Molecular polarity 10. Hybridization of central atom Page 6 of 6 VSEPR Theory and the Shapes of Molecules
1. Using an appropriate set of models, make molecular models of the compounds listed below and complete the table. lewis Dipele Molecular formula No. of bond pairs (bp) No. of lone pairs on central atom (Ip) Hybridization of central atoms Molecular geometry Bond angle(s) (yes or no) BeCl2 BF SnCl2 CH4 NH H20 PCI SF, Bry XeF, SE XeF4