Atomic Structure & Periodicity
Chapter 7 pp 291-347
Objectives
Characterize electromagnetic radiation in terms of wavelength, frequency, and speed
Energy emitted is quantized and behaves as both a wave and a particle
Using the Bohr model of the Hydrogen atom describe the position of the electron based on energy
Assign quantum numbers to the electron
Apply Afbau principle, Hund's rule, and Pauli exclusion principle to electron configuration
Be able to use Photoelectron Spectroscopy to predict/confirm electron configuration
Trace the development of the periodic table
Using the position of the elements within the periodic table predict and explain trends in:
Energy emitted is quantized and behaves as both a wave and a particle
Using the Bohr model of the Hydrogen atom describe the position of the electron based on energy
Assign quantum numbers to the electron
Apply Afbau principle, Hund's rule, and Pauli exclusion principle to electron configuration
Be able to use Photoelectron Spectroscopy to predict/confirm electron configuration
Trace the development of the periodic table
Using the position of the elements within the periodic table predict and explain trends in:
- Atomic radius
- Ionic radius
- Ionization energy
- Electronegativity
- Electron affinity
- Reactivity
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