Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook
Physical Organic Chemistry: A Guided Inquiry Workbook

Physical Organic Chemistry: A Guided Inquiry Workbook

$19.69
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This workbook is intended for use in an introductory graduate or an advanced undergraduate Physical Organic Chemistry course in conjunction with a textbook. The activities are designed to be used by students working in small, self-managed groups. Each activity starts with a focus question, which is a question that students should be able to answer by the end of the activity. Students are guided by the models and questions within the activity to develop the desired concepts. Exercises are included in some of the activities and are meant to be done as homework in addition to problems given by the instructor.

140 pages, 2 Chapters, 20 Activities

  • Pericyclic Reactions
  • Activity 1: Introduction to Qualitative Molecular Orbital Theory
  • Activity 2: Stereochemistry of Electrocyclic Reactions
  • Activity 3A: Electrocyclic Reactions and Molecular Orbitals
  • Activity 3B: Correlation Diagrams
  • Activity 4A: Stereochemistry of Cycloadditions and Cycloreversions
  • Activity 4B: Diels-Alder Reactions
  • Activity 5A: Benzene and Möbius Benzene
  • Activity 5B: Aromatic Transition State Theory
  • Activity 6A: Sigmatropic Rearrangements
  • Activity 6B: Alkyl Shifts
  • Activity 7A: The Cope Rearrangement I
  • Activity 7B: The Cope Rearrangement II
  • Polar Reactions
  • Activity 8: Polar Mechanisms
  • Activity 9: Isotopic Substitution
  • Activity 10A: Hammett Plots
  • Activity 10B: More Hammett Plots
  • Activity 11A: Review: Lewis Acids/Bases, Electrophiles, & Nucleophiles
  • Activity 11B: Hard Soft Acid Base Theory
  • Activity 12: Topicity Relationships
  • Activity 13: Polar Ring Closures

    • http://www.pcrest2.com/poc/index.htm

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