1. Fill in the following table shown below. If there are resonance structures, be sure to...
Formulas you might need: AG=AH-TAS q=mcAT AHørxn= SAH°(products)- AH (reactants) 1. Fill in the following table shown below. If there are resonance structures, be sure to draw each of them. Identify the strongest intermolecular force present (38 pts total). XeF; Lewis or 3D Spatial Structure (5 pts): Molecular Hybridization geometry(2pts): on central atom (2 pts): Bond Angles (2 pts): Molecule is (2 pts): Polar Non-polar BrF. Lewis or 3D Spatial Structure (5 pts): Molecular geometry 2 pts: Hybridization on central...
Formulas you might need: AG=AH-TAS q=mcAT AHørun= SAH (products)- AH°reactants) 1. Fill in the following table shown below. If there are resonance structures, be sure to draw each of them. Identify the strongest intermolecular force present (38 pts total). XeF; Lewis or 3D Spatial Structure (5 pts): Molecular Hybridization geometry(2pts): on central atom (2 pts): Bond Angles (2 pts): Molecule is (2 pts): Polar Non-polar BrF. Lewis or 3D Spatial Structure (5 pts): Molecular geometry 2 pts: Hybridization on central...
1 AH nx=LAH (products)-ZAH(reactants) 40=AH-TAS 1. Fill in the following table shown below. If there are resonance structures, be sure to draw each of them. (38 pts total). SF.2 Lewis or 3D Spatial Structure (5 pts): Molecular Hybridization geometry(2pts): on central atom (2 pts): Bond Angles (2 pts): Molecule is (2 pts): Polar Non-polar Brf Lewis or 3D Spatial Structure (5 pts): Molecular Hybridization geometry 2 pts: on central atom Bond Angles (3 pts): (2 pts): Molecule is (2 pts):...
What about SF4 and NO . I made mistake on them.
and
SF3 and NO3
U AB 2018 2. For the following ions/molecules, describe the strongest intermolecular forces present? (4 pts, choices are ion-dipole, H- bonding, LDF, dipole-dipole) et LDF 8 +(4 x 7) = 36 SF. Ion-dipole 76+ (4x7) = 34 é NO₂ (aq) Dipoler-dipole 10 H-bonding PF, Lewis or 3D Spatial Structure (5 pts): 5+ (4*7) + 1 = 34 e IM Forces (2 pts): Van der Waals/LDF...
3.Fill in the table below - only 1 Lewis structure for eaclh is necessary, no resonance structures: Formula à HCNNO FICl, (exception to sulfite ion the octet rule) 3-D Lewis structure including bonding and lone pairs, and formal charges (each atom in the structure) electron pair geometry molecular geometry (with bond angles) Hybridization of the central atom(s) Polar?- Yes/No
Use structures and VSEPR theory to answer the following questions about CIBr_s. Show a valid Lewis structure. (Don't forget lone pairs) What is the electron group geometry? What is the molecular geometry? Show a drawing with correct 3D geometrical representation. What are the bond angles in the molecule? What is the hybridization of the central atom? Is this molecule polar or nonpolar?
Lewis Dot structure Electronic geometry Molecular shape Ideal Bond angles Hybridization of central atom Does it contain polar bonds? is the molecule polar? Seci, Lewis Dot structure Electronic geometry Molecular shape Ideal Bond angles Hybridization of central atom Does it contain polar bonds? Is the molecule polar? 124 Chemical Bonding Laboratory 12
NAME: INSTRUCTOR: SECTION/GROUP: Lewis Dot structure Electronic geometry Molecular shape Ideal Bond angles Hybridization of central atom Does it contain polar bonds? is the molecule polar? Lewis Dot structure Electronic geometry Molecular shape Ideal Bond angles Hybridization of central atom Does it contain polar bonds? Is the molecule polar? Laboratory 12 Chemical Bonding 125
Lewis or 3D Spatial Structure (5 pts) H2O Bond Angles- Molecule is (2 pts) Polar Hybridization geometry 2 pts: on central atom 1 pt: (2 pts): Molecular Non-polar 2. Draw the spatial structure for BF. Use valence bond theory and an orbital diagram to explain how the hybrid orbitals are formed (6 pts). 3. Using the following thermochemical equations below, calculate AH for the following reaction (14 pts): FeO (s) +CO(g) Fe(s) + CO2(g) FezOy(s)+3CO(g)>2Fe(s) +3CO2 (g) AH -23 kJ...
VSEPR PRACTICE Fill in the table below for these molecules. Please perform your calculations on scratch paper, not here. Lewis structure Hybridisation lectron Molecular Group Compound Geometry valence including resonance structures is applicable) en central Geometry Angle Bonds? IN Polar Molecule? co Carbon dioxide NO nitrition CCM Carbon Tetrachloride Total Lewis tructure (including resonance structures it applicable) Compound Hybridisation o central Electron Group Geometry Molecular Geometry Bonds? Molecule? NH ammonia Col Chloritelon SO Angle Total Lewis structure Hybridization valence (including...