magnesium metal foil was illuminated by a pulse of laser beam with a wavelength of 306 nm. A total number of 6 × 10³ ejected electrons were generated. Each electron has an de Broglie wavelength of 2 nm. (c) What's the energy of the laser beam? (d) If we increase the laser intensity by two times, how will it affect the kinetic energy of ejected electrons (decrease, increase or no change)? Why?
magnesium metal foil was illuminated by a pulse of laser beam with a wavelength of 306 nm. A total number of 6 × 10³ ejected electrons were generated. Each electron has an de Broglie wavelength of 2 nm. (c) What's the energy of the laser beam? (d) If we increase the laser intensity by two times, how will it affect the kinetic energy of ejected electrons (decrease, increase or no change)? Why?
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answer part c and d
Transcribed Image Text:magnesium metal foil was illuminated by a pulse of laser beam with a wavelength of 306 nm. A
total number of 6 × 10³ ejected electrons were generated. Each electron has an de Broglie
wavelength of 2 nm.
(c) What's the energy of the laser beam?
(d) If we increase the laser intensity by two times, how will it affect the kinetic energy of ejected
electrons (decrease, increase or no change)? Why?
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