3. [Photoelectric Effect - Work Function] Consider the same metals: Potassium (Wo= 2.24 eV), Calcium (W₂ = 2.71 eV), Uranium (Wo=3.63 eV), Aluminum (Wo= 4.08 eV), and Gold (We = 4.82 eV). (a) We perform an entirely new experiment and use an electromagnetic wave of wavelength - 350 nm shining on all the metal surfaces. Which metals eject photoelectrons? Note: assume the electrons leave the sample with zero speed. (b) We now increase the intensity of the 2- 350 nm EMW incident on each metal sample. For each metal, would the measured photoelectron current increase, decrease, or stay the same, and why? (c) Predict whether you would observe a photoelectron current for each metal if you used a new incident EMW of wavelength = 500 nm.

3. [Photoelectric Effect - Work Function] Consider the same metals: Potassium (Wo= 2.24 eV), Calcium (W₂ = 2.71 eV), Uranium (Wo=3.63 eV), Aluminum (Wo= 4.08 eV), and Gold (We = 4.82 eV). (a) We perform an entirely new experiment and use an electromagnetic wave of wavelength - 350 nm shining on all the metal surfaces. Which metals eject photoelectrons? Note: assume the electrons leave the sample with zero speed. (b) We now increase the intensity of the 2- 350 nm EMW incident on each metal sample. For each metal, would the measured photoelectron current increase, decrease, or stay the same, and why? (c) Predict whether you would observe a photoelectron current for each metal if you used a new incident EMW of wavelength = 500 nm.

Physics for Scientists and Engineers with Modern Physics

10th Edition

ISBN:9781337553292

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter39: Introduction To Quantum Physics

Section: Chapter Questions

Problem 45AP

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