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  • https://chem.libretexts.org/Courses/Lafayette_College/CHEM_212_213%3A_Inorganic_Chemistry_(Nataro)/05%3A_Coordination_Chemistry/5.06%3A_Crystal_Field_Theory/5.6.02%3A_Colors_of_Coordination_Complexes
    If the ions have a noble gas configuration, and have no unpaired electrons, the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but t...If the ions have a noble gas configuration, and have no unpaired electrons, the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but these wavelengths are not in the visible portion of the EM spectrum and no color is perceived by the eye.
  • https://chem.libretexts.org/Courses/Kutztown_University_of_Pennsylvania/CHM_320%3A_Advanced_Inorganic_Chemistry_textbook/08%3A_LFT_for_Other_Geometries___Spectroscopic_Properties/8.02%3A_Absorption_Spectra_and_Magnetic_Properties/8.2.01%3A_Colors_of_Coordination_Compounds_(Electronic_Absorption_Spectra)
    If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears bl...If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears black. If there is no electronic transition (eg a d10 complex), the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but these wavelengths are not in the visible portion of the EM spectrum and no color is perceived by the eye.
  • https://chem.libretexts.org/Courses/Earlham_College/CHEM_361%3A_Inorganic_Chemistry_(Watson)/04%3A_d_Block_Chemistry/4.02%3A_Coordination_Chemistry_II_-_Bonding/4.2.02%3A_Bonding_Theories/4.2.2.01%3A_Crystal_Field_Theory/4.2.2.1.02%3A_Colors_of_Coordination_Complexes
    If the ions have a noble gas configuration, and have no unpaired electrons, the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but t...If the ions have a noble gas configuration, and have no unpaired electrons, the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but these wavelengths are not in the visible portion of the EM spectrum and no color is perceived by the eye.
  • https://chem.libretexts.org/Courses/Saint_Marys_College_Notre_Dame_IN/CHEM_431%3A_Inorganic_Chemistry_(Haas)/CHEM_431_Readings/12%3A_LFT_for_Other_Geometries___Spectroscopic_Properties/12.02%3A_Absorption_Spectra_and_Magnetic_Properties/12.2.01%3A_Colors_of_Coordination_Compounds_(Electronic_Absorption_Spectra)
    If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears bl...If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears black. If there is no electronic transition (eg a d10 complex), the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but these wavelengths are not in the visible portion of the EM spectrum and no color is perceived by the eye.
  • https://chem.libretexts.org/Courses/University_of_Florida/CHM2047%3A_One-Semester_General_Chemistry_(Kleiman)/08%3A_8_Coordination_Chemistry/13%3A_Absorption_Spectra_and_Magnetic_Properties/13.01%3A_Colors_of_Coordination_Compounds_(Electronic_Absorption_Spectra)
    If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears bl...If none of the light is absorbed, and all is reflected back off, the object appears white; if all of the light is absorbed, and there is none left to reflect or transmit through, the object appears black. If there is no electronic transition (eg a d10 complex), the solutions appear colorless; in reality, they still have a measured energy and absorb certain wavelengths of light, but these wavelengths are not in the visible portion of the EM spectrum and no color is perceived by the eye.

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