(b) For any wavelength of light that can eject electrons, the kinetic energy of the elecit fg the...
(b) For any wavelength of light that can eject electrons, the kinetic energy of the elecit fg the same in dim light or in bright light. What is the effect of increasing (i.e., making it brighter) with a wavelength that can eject an clectron? What is the effect of increasing the intensity of light with a wavelength below the threshold frequency? the intensity of light The kine increase if we in sease thentcnstg we he kinetic en-clay will be the same bel ow he threshdd Pegny nature of light? Specifically, explain how a classical conception of light as wave fails to explain the calculations and explanations you made above. (c) Based on your calculations and explanations above, what conclusions can you draw about the
(b) For any wavelength of light that can eject electrons, the kinetic energy of the elecit fg the same in dim light or in bright light. What is the effect of increasing (i.e., making it brighter) with a wavelength that can eject an clectron? What is the effect of increasing the intensity of light with a wavelength below the threshold frequency? the intensity of light The kine increase if we in sease thentcnstg we he kinetic en-clay will be the same bel ow he threshdd Pegny nature of light? Specifically, explain how a classical conception of light as wave fails to explain the calculations and explanations you made above. (c) Based on your calculations and explanations above, what conclusions can you draw about the