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7: Molecular Modeling

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  • Page ID
    541656

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    • 7.1: Supplies
      This page provides a list of the supplies needed to conduct the Molecular Modeling activity.
    • 7.2: Background - Benefits and Limitations of Models
      This page discusses molecular modeling techniques that help visualize molecules through physical models and digital representations. It emphasizes the advantages of these models in allowing observation of atoms and molecules, despite their limitations. Additionally, it highlights their importance in predicting molecular behavior, making them essential tools in chemistry.
    • 7.3: Background - Lewis Structures
      This page provides a guide on creating Lewis structures for atomic elements and molecules, using carbon and the carbonate ion as examples. It outlines steps for atomic Lewis structures, including recognizing chemical symbols and valence electrons, as well as for molecular structures, detailing central atom identification, valence electron calculation, and electron distribution to fulfill octet rules while considering charges in polyatomic ions.
    • 7.4: Background- Molecular Shape
      This page emphasizes the importance of molecular shape on physical and chemical properties, primarily through VSEPR theory. It details how the arrangement of electron pairs affects molecular geometry, describing key shapes like linear, trigonal planar, bent, tetrahedral, and trigonal pyramidal, along with their bond angles. The significance of these shapes in understanding chemical behavior, particularly in medicinal chemistry and enzyme functionality, is also highlighted.
    • 7.5: Activity
      This page describes a lab activity where students model molecules with toothpicks and gumdrops or marshmallows while practicing Lewis structures and determining molecular shapes. They fill in a data table that includes creating Lewis structures, building physical models, and identifying shapes based on electron distribution.
    • 7.6: Data Table
      This page provides a data table with the assigned molecules for the Molecular Modeling activity.
    • 7.7: Laboratory Questions
      The page contains questions to help students think about the Molecular Modeling activity and to extend their knowledge to a new molecule.

    This page titled 7: Molecular Modeling is shared under a CC BY-NC-SA license and was authored, remixed, and/or curated by Georgia Fritz.