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Suppose an electron is confined to an infinite well with size 0.1 nm. 5) In which state does the particle have the highest probability to be near the center of the well? a. Ground state (n=1) b. First excited state (n=2) c. The ground and first excited state have the same probability of being near the center. 6) Suppose the particle starts in the n = 3 excited state and emits a photon, ending up in the n = 2 state. What is the wavelength of the photon emitted? L%3D

Suppose an electron is confined to an infinite well with size 0.1 nm. 5) In which state does the particle have the highest probability to be near the center of the well? a. Ground state (n=1) b. First excited state (n=2) c. The ground and first excited state have the same probability of being near the center. 6) Suppose the particle starts in the n = 3 excited state and emits a photon, ending up in the n = 2 state. What is the wavelength of the photon emitted? L%3D

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The next three questions pertain to the situation described below. Suppose an electron is confined to an infinite well with size 0.1 nm. 5) In which state does the particle have the highest probability to be near the center of the well? a. Ground state (n=1) b. First excited state (n=2) c. The ground and first excited state have the same probability of being near the center. 6) Suppose the particle starts in the n = 3 excited state and emits a photon, ending up in the n = 2 state. What is the wavelength of the photon emitted? a. 188 nm b. 6.6 nm c. 37.6 nm 7) Consider the same transition as above. We now change the well so the walls are finite, while keeping everything else the same. Would the wavelength of the emitted photon increase, decrease, or stay the same? a. Increase b. Decrease c. Stay the same
Transcribed Image Text:The next three questions pertain to the situation described below. Suppose an electron is confined to an infinite well with size 0.1 nm. 5) In which state does the particle have the highest probability to be near the center of the well? a. Ground state (n=1) b. First excited state (n=2) c. The ground and first excited state have the same probability of being near the center. 6) Suppose the particle starts in the n = 3 excited state and emits a photon, ending up in the n = 2 state. What is the wavelength of the photon emitted? a. 188 nm b. 6.6 nm c. 37.6 nm 7) Consider the same transition as above. We now change the well so the walls are finite, while keeping everything else the same. Would the wavelength of the emitted photon increase, decrease, or stay the same? a. Increase b. Decrease c. Stay the same
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