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Lewis Electron Dot Models—Super Value Laboratory Kit

By: The Flinn Staff

Item #: AP4580 

Price: $42.47

In Stock.

The Lewis Electron Dot Models Chemical Bonding Super Value Laboratory Kit utilizes “electron” chips and element symbols to build Lewis electron dot models. By providing a hands-on experience, students will visualize molecular bonding.

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Product Details

Help students visualize molecular bonding while providing a hands-on model-building experience. This innovative kit utilizes “electron” chips and cut-out element symbols to build Lewis electron dot models for both atoms and molecules. Students are able to count and manipulate the electron “chips” for a variety of molecular structures and then draw the structures in the provided data tables. Detailed instructions guide students through the determination of valence electrons and the drawing of Lewis electron dot structures. Includes a magnetic wand and 100 wire-rimmed counting chips for teacher overhead demonstrations, 1,000 colored chips for student use, background information, instructions, data tables and reproducible masters for elements 1–18, plus extras of the common elements, such as H, C, O and N. Simplify the “not-so-simple” concept of molecular bonding—build Lewis electron dot structures!

Super Value Kit is complete for 30 students working individually. All materials are reusable.


Materials Included in Kit: 
Bingo chips, ¾", blue, 250
Bingo chips, ¾", green, 250
Bingo chips, ¾", red, 250
Bingo chips, ¾", yellow, 250
Magnetic wand
Wire-rimmed counting chips

Correlation to Next Generation Science Standards (NGSS)

Science & Engineering Practices

Developing and using models
Using mathematics and computational thinking

Disciplinary Core Ideas

MS-PS1.A: Structure and Properties of Matter
HS-PS1.A: Structure and Properties of Matter

Crosscutting Concepts

Scale, proportion, and quantity

Performance Expectations

MS-PS1-1. Develop models to describe the atomic composition of simple molecules and extended structures.
HS-PS1-1. Use the periodic table as a model to predict the relative properties of elements based on the patterns of electrons in the outermost energy level of atoms.