15. Question: Chapter: 2 Lesson: 2 Use the Bohr model and determine the wavelength of light that would lonize a hydrogen atom if the electron were in an excited state (n = 3). Hint: lonization is the removal of an electron; we are removing the electron from the n = 3 level. What is the energy of this electron? What is the physical process associated with the definition of this energy?

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Question 15
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15.
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16.
Question:
Use the Bohr model and determine the wavelength of light that would ionize a hydrogen atom if the electron were in an
excit state (n = 3).
Question:
Chapter: 2 Lesson: 2
+
lonization is the removal of an electron; we are removing the electron from the n = 3 level. What is the energy of this
electron? What is the physical process associated with the definition of this energy?
Hint:
Week 3 Homework.
Chapter: 2 Lesson: 2
An emission line the hydrogen atom has a wavelength of 95.0 nm. What is the initial energy state (n) of the electron?
What region in the electromagnetic spectrum is this emission found? Based on this can you determine the final value of n
associated with this emission?
Transcribed Image Text:6/6 0/22, 3:31 PM =ligenchem.science.psu.edu/sites/default/files/filejvxOB8 15. Hint: 100% 16. Question: Use the Bohr model and determine the wavelength of light that would ionize a hydrogen atom if the electron were in an excit state (n = 3). Question: Chapter: 2 Lesson: 2 + lonization is the removal of an electron; we are removing the electron from the n = 3 level. What is the energy of this electron? What is the physical process associated with the definition of this energy? Hint: Week 3 Homework. Chapter: 2 Lesson: 2 An emission line the hydrogen atom has a wavelength of 95.0 nm. What is the initial energy state (n) of the electron? What region in the electromagnetic spectrum is this emission found? Based on this can you determine the final value of n associated with this emission?
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