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Chapter 5<br />
Electrons in Atoms<br />
The students will be able to describe the arrangement of<br />
electrons in atoms and predict what will happen when<br />
electrons in atoms absorb or release energy.<br />
Describe the quantization of energy at the atomic level.<br />
Students will participate in activities to view emission spectrums using a<br />
diffraction grating or a spectroscope.<br />
Students will be able to explain how the spectrum lines relate to electron motion.<br />
energy level<br />
atomic orbital<br />
quantum mechanical model<br />
Chapter 6<br />
The Periodic Table<br />
The student will learn what information the periodic table<br />
provides and how periodic trends can be explained.<br />
Relate properties of atoms and their position in the periodic table to the<br />
arrangement of their electrons.<br />
Students will be able to compare and contrast metals, nonmetals, and metalloids.<br />
Students will be able to describe the traits of various families on the periodic<br />
table.<br />
Students will be able to explain periodicity.<br />
Students will write/represent electron configuration of various elements.<br />
Students will be able to use a periodic table to calculate the number of p + , e - , and<br />
n 0 .<br />
Students will be able to calculate the average weight of mass.<br />
periodic law<br />
halogen<br />
metals<br />
noble gas<br />
nonmetals<br />
transition metal<br />
metalloid<br />
atomic radius<br />
alkali metal<br />
ionization energy<br />
alkaline earth metal<br />
electronegativity