Problem 7. (8 points) Write the electron dot formula and draw the structural formula for each...
C. Molecular Models with Triple Bonds Molecular Model Structural Formula Electron Dot Formula Valence Electron Molecule CH HOCN D. Molecular Models with Two Double Bonds CO CzH4
C. Molecular Models with Triple Bonds Molecule Molecular Model Structural Formula Electron Dot Formula Valence Electrons (a) N2 (b) C2H2 HOCN D. Molecular Models with Two Double Bonds (a) CO2 (b) C3H4 Copyright © 2013 Pearson Education Molecular Models 213
DATA TABLE A. Molecular Models with Single Bonds Model Kit # Structural Molecular Model Electron Dot Formula Molecule Valence Electrons Formula Formula 145 Molecule Molecular Model Structural Formula Electron Dot Formula Valence Electrons HCI HBr CH4 CH2Cl2 Structural Molecule Molecular Model Formula Electron Dot Formula Valence Electrons HOCI H202 NH3 OWO N HA NH,OH B. Molecular Models with Double Bonds Valence Electrons Electron Dot Formula Structural Formula Molecular Model Molecule (a) C2H4 (c) HONO (d) HCOOH (e) CH3C1 C. Molecular...
Problem 6. (6 points) Regarding a covalent bond between carbon and oxygen atoms in a carbon monoxide, CO, molecule, determine in each of the following statements if they are either true or false. Justify your answer.? (a) Valence electrons are transferred from carbon to oxygen atoms. (b)Bonding electrons are distributed over the entire CO molecule. (c) The bond length is less than the sum of the two atomic radii. (d) Energy is released when a covalent bond is broken. Problem...
Procedure: For Part 1, write the Lewis Dot (or Electron Dot) structure for each atom, followed by the ions that each element would form, the compound that would be formed from the combination of the two elements and finally the Lewis Dot structure for the compound. For Part 2, show the Lewis Dot structure for each molecules, its AXE designation and finally its Electron Pair/ Geometric Shape geometries. Also indicate any partial charges that may exist on that molecule. PART...
2. Refer to the electron dot formula for each molecule in the preceding question. Using VSEPR theory, predict the electron pair geometry and molecular shape for each molecule. Molecule Electron Pair Geometry Molecular Shape (a) HOB (b) PI 3 (c) SiF4 (d) CS2 (e) SO2 3. (optional) A hydrogen ion bonds to an ammonia molecule, NH3, forming the ammonium ion. Draw the electron dot and structural formulas for NH4+ Label the coordinate covalent bond. 216 Experiment 18 Copyright © 2013...
PRELAB ASSIGNMENT 1. Draw an electron-dot structure for CF. Then, complete the following table, based on a VSEPR prediction. roup BondingTLone l Bond Angle-Shape ment Regions Pairs Molecular Molecule Electron Groups Arrange CF Draw the condensed and expanded structural formula for the molecule with the following skeletal formula: 2. Draw the condensed and skeletal formula for the molecule having the following expanded structural formula: 3. H-C-H -H Give two examples of everyday objects (not molecules) that are chiral and two...
4. Draw the structural formula corresponding to each of the follow ach of the following molecular models. moodi v sambo onde den s o bado boods (b) d own boods 5. Draw the electron dot formula corresponding to the structural formula of the above models. Hol o tto dobod to the bodo (a) badoo lo lodo volalo a bs (0 obrodotto bot t es motos de brod siduob brodova nontologonlobood plantsumo con lot no toplo ponovo dun sabong bass boog...
Problem 3. (8 points) Write out the electron configuration for each of the following metal ions. (а) К* (b) Cа* (c) Sc3+ F7 (d) Ti* Problem 4. (8 points) Write out the electron configuration for each of the following nonmetal ions (a)CI (b)s2- (c) p3- (d)Sit Problem 5 (6 noints)
Instead of "Molecular models" it is changed to "Overall Lewis Structure" Molecule Molecular Model Structural Formula Electron Dot Formula Valence Electrons (a) 02 (b) C2H4 (c) HONO (d) HCOOH C. Molecular Models with Triple Bonds Molecule Molecular Model Structural Formula Electron Dor Formula Valence Electrons N2 (b) C2H2 (c) HOCN D. Molecular Models with Two Double Bonds (a) CO2 (b) C3H4 Copyright © 2013 Pearson Education Molecular Models 213