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Chapter 7<br />
Ionic and Metallic Bonding<br />
The students will learn how ionic compounds form and how<br />
metallic bounding affects the properties of metals.<br />
Compare the magnitude and range of the four fundamental forces<br />
(gravitational, electromagnetic, weak nuclear, strong nuclear).<br />
<br />
Students will compare/contrast the characteristics of each fundamental force.<br />
gravity<br />
electromagnetic<br />
strong<br />
weak<br />
Distinguish between bonding forces holding compounds together and other<br />
attractive forces, including hydrogen bonding and van der Waals forces.<br />
<br />
<br />
<br />
Students will be able to compare/contrast traits of ionic and covalent bonds.<br />
Students will be able to compare/contrast basic attractive forces between<br />
molecules.<br />
Students will be able to predict the type of bond or attractive force between<br />
atoms or molecules.<br />
ionic bond<br />
covalent bond<br />
metallic bond<br />
polar covalent bond<br />
hydrogen bond<br />
van der Waals forces<br />
London dispersion forces<br />
Chapter 8<br />
Covalent Bonding<br />
The students will learn how molecular bonding is different<br />
than ionic bonding and electrons affect the shape of a<br />
molecule and its properties.<br />
Interpret formula representations of molecules and compounds in terms of<br />
composition and structure.<br />
<br />
<br />
<br />
Students will be able to interpret chemical formulas in terms of # of atoms.<br />
Students will be able to differentiate between ionic and molecular compounds.<br />
Students will be able to list various VSEPR shapes and identify examples of<br />
each.<br />
Students will be able to predict shapes of various compounds.<br />
Molecule<br />
empirical formula<br />
<br />
Atom<br />
Electron<br />
Element<br />
Compound<br />
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