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4.E: Electrons in Atoms and the Periodic Table (Exercises)
https://chem.libretexts.org/Courses/Pasadena_City_College/Chem_2A_(Ku)_Textbook/04%3A_The_Periodic_Table_and_Electronic_Structure/4.E%3A_Electrons_in_Atoms_and_the_Periodic_Table_(Exercises)
(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to t...(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + . (c) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ frequency than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + .
9.E: Electrons in Atoms and the Periodic Table (Exercises)
https://chem.libretexts.org/Courses/Santa_Barbara_City_College/SBCC_Chem_101%3A_Introductory_Chemistry/09%3A_Electrons_in_Atoms_and_the_Periodic_Table/9.E%3A_Electrons_in_Atoms_and_the_Periodic_Table_(Exercises)
(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to t...(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + . (c) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ frequency than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + .
9.E: Electrons in Atoms and the Periodic Table (Exercises)
https://chem.libretexts.org/Courses/Arkansas_Northeastern_College/CH14133%3A_Chemistry_for_General_Education/09%3A_Electrons_in_Atoms_and_the_Periodic_Table/9.0E%3A_9.E%3A_Electrons_in_Atoms_and_the_Periodic_Table_(Exercises)
(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to t...(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + . (c) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ frequency than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + .
11.E: Electrons in Atoms and the Periodic Table (Exercises)
https://chem.libretexts.org/Courses/Taft_College/CHEM_1510%3A_Introductory_College_Chemistry/11%3A_Modern_Atomic_Theory/11.E%3A_Electrons_in_Atoms_and_the_Periodic_Table_(Exercises)
(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to t...(b) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ wavelength than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + . (c) An electron falling from the n = 2 orbit of He + to the n = 1 orbit of He + produces light with a ______ frequency than the light produced by an electron falling from the n = 3 orbit of He + to the n = 1 orbit of He + .
10.9: Exercises
https://chem.libretexts.org/Courses/Anoka-Ramsey_Community_College/Introduction_to_Chemistry/10%3A_Electrons_in_Atoms/10.09%3A_Exercises
The frequency of green light is higher than the frequency of blue light and the wavelength of green light is shorter than the wavelength of blue light. The frequency of green light is lower than the f...The frequency of green light is higher than the frequency of blue light and the wavelength of green light is shorter than the wavelength of blue light. The frequency of green light is lower than the frequency of blue light and the wavelength of green light is shorter than the wavelength of blue light. The frequency of green light is the same as the frequency of blue light and the wavelength of green light is shorter than the wavelength of blue light.

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