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4: Electrons in Atoms and the Periodic Table

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    531335

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    • 4.1: Light- Electromagnetic Radiation
      Light acts like a wave, with a frequency and a wavelength. The frequency and wavelength of light are related by the speed of light, a constant. Light acts like a particle of energy, whose value is related to the frequency of light.
    • 4.2: The Electromagnetic Spectrum
      Electromagnetic waves have an extremely wide range of wavelengths, frequencies, and energies. The highest energy form of electromagnetic waves are gamma (γ) rays and the lowest energy form are radio waves.
    • 4.3: Electronic Structure of Atoms
      Electrons in atoms have quantized energies. The state of electrons in atoms is described by four quantum numbers. Electrons are organized into shells and subshells about the nucleus of an atom.
    • 4.4: Electron Configurations
      There are a set of general rules that are used to figure out the electron configuration of an atomic species: Aufbau Principle, Hund's Rule and the Pauli-Exclusion Principle.
    • 4.5: Electron Configurations and the Periodic Table
      The arrangement of electrons in atoms is responsible for the shape of the periodic table. Electron configurations can be predicted by the position of an atom on the periodic table.
    • 4.6: Ions - Losing and Gaining Electrons
      Atom may lose valence electrons to obtain a lower shell that contains an octet. Atoms that lose electrons acquire a positive charge as a result. Some atoms have nearly eight electrons in their valence shell, and can gain additional valence electrons until they have an octet. When these atoms gain electrons, they acquire a negative charge.
    • 4.7: The Explanatory Power of the Quantum-Mechanical Model
      The chemical properties of elements are determined primarily by the number and distribution of valence electrons.

    4: Electrons in Atoms and the Periodic Table is shared under a CK-12 license and was authored, remixed, and/or curated by Marisa Alviar-Agnew & Henry Agnew.

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