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Unit 06 Chemical Bonding
I understand that atoms interact with other atoms forming chemical bonds that build compounds.
Target 06-01 Predict the type of bonds that will occur between atoms.
"I can" Statements:
06-01 a. Explain why chemical bonds form.
06-01 b. Classify bonding type according to electronegativity difference.
06-01 c. Use the Periodic Table to predict the type of bond that will occur between elements.
06-01 d. Interpret chemical formulas for bond type.
06-01 e. Interpret chemical formulas for number and kinds of particles.
Target 06-02 Use Lewis structures to diagram elements, ions, and compounds.
"I can" Statements:
06-02 a. Use Lewis structures to diagram elements.
06-02 b. Use Lewis structures to diagram covalent compounds.
06-02 c. Use Lewis structures to diagram molecules containing multiple bonds.
06-02 d. Use Lewis structures to diagram resonance structures.
06-02 e. Use Lewis structures to diagram ions and ionic compounds.
06-02 f. Use Lewis structures to diagram radicals (polyatomic ions).
06-02 g. Model Metallic bonding.
Target 06-03 Use electronegativity and molecular geometry to predict the properties of a compound.
"I can" Statements:
06-03 a. Create molecules using correct geometry for the atoms involved.
06-03 b. Describe the shape and bond angle of covalent molecules.
06-03 c. Use VSEPR theory to determine whether a compound is polar or nonpolar.
06-03 d. Predict the properties of polar and non-polar compounds.
Target 06-04 Explain how factors that affect bond strength influence the properties of a compound.
"I can" Statements:
06-04 a. Apply bond length to strength of a bond.
06-04 b. Apply ion charge to the strength of a metallic bond.
06-04 c. Apply lattice energy to the strength of an ionic bond.
06-04 d. Apply forces including dipole-dipole, induced dipoles, hydrogen bonding, and London dispersion forces (VanderWaals Forces) to the strength of a bond.
06-04 e. Use the intermolecular forces to explain properties of a compound including solubility, phase at room temperature, relative melting and boiling temperatures, conductivity, malleability, luster (shininess), and ductility.
Activities For Chem Unit 06 Chemical Bonding
Activities For Chem Unit 06 Chemical Bonding
Chem Activity: Lab - Hydride Stick'ems
Chem Activity: Lab - Name is BOND
Chem Activity: Lab - Win, Lose, or Draw
Chem Activity: Lab - Tetrahedral Possibilities
Section Review Guide 6:1 Introduction to Chemical Bonding
Section Review Guide 6:2 Covalent Bonding and Molecular Compounds
Section Review Guide 6:3 Ionic Bonding and Ionic Compounds
Section Review Guide 6:4 Metallic Bonding
Section Review Guide 6:5 Molecular Geometry
VSEPR Theory - Addison Wesley Chemistry
Mixed Review Chapter 6 Introduction to Chemical Bonding
SPIC Chapter 12:1 Bond Character (Tan)
Chem Activity: Determine Bond Type from Properties
Video: World of Chemistry: Metals
Video: Making Molecules and Molecular Geometry: #5 Annenberg Learner
Chapter 12:1 AGS WB 71 Electronegativity and Bond Type
Chapter 12:2 AGS WB 72 Dot Diagrams of Molecules
Chapter 12:3 AGS WB 73 Molecular Geometry
Chapter 12:4 AGS WB 74 Polar and Nonpolar Molecules
Chapter 12:5 AGS WB 75 Interparticle Forces
SPIC Chapter 12
SPIC Chapter 13
13:1 Electron Dot Structures and 13:2 Resonance
13:3 Valence Shell Electron Pair Repulsion and 13:4 Hybrid Orbitals
SPIC Chapter 14
14:1 Polarity and 14:2 Intermolecular Forces (van der Waals Forces)
Dipole-Dipole, London Dispersion Forces, and Hydrogen Bonding
Videos and Interactives
Videos and Interactives
Beautiful Chemistry Reactions - Observe the reactions as they happen using high speed video
Metallic Bonding - FuseSchool (4:13)
What are Ionic Bonds? FuseSchool (2:55)
Khan Academy: Introduction to Bonding
VSEPR Theory and Molecular Geometry with Professor Dave Explains - 6:30
Intermolecular Forces and Boiling Points with Professor Dave Explains - 10:53
Crash Course Chemistry
Crash Course Chemistry
Crash Course Chemistry # 22 Types of Chemical Bonds - 9:46
Crash Course Chemistry #23 Polar & Non-Polar Molecules - 10:46
Crash Course Chemistry #24 Bonding Models and Lewis Structures - 11:38
Crash Course Chemistry #25 Orbitals - 10:52
Crash Course Chemistry #33 Doing Solids - 9:18
Crash Course Chemistry #34 Network Solids and Carbon - 8:20
Crash Course Chemistry #35 Silicon - The Internet's Favorite Element - 9:27
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