How do photons compare to other particles, such as electrons?
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How do photons compare to other particles, such as electrons?
How do they differ? Are photons massless? Are they electrically charged? Are they capable of being accelerated? What mechanical characteristics do they possess?
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- Consider a red photon and a violet photon. a) How do their photon energies compare to one another? b) How do the frequencies of their photons compare to one another? Explain your answer. c) How do the wavelengths of these two photons compare to one another? Explain your answer..What are the principles of classical physics that were undermined by quantum phenomena? 1. Matter is made of particles.2. Energy is transferred & stored in continuous, arbitrary amounts.3. Like charges repel and unlike charges attract.4. Light is an electromagnetic wave. (A) 2 only, actually(B) 1, 2, and 4(C) 1 and 4(D) 1, 3, and 4#4?
- Your trusty 1 milliwatt He-Ne laser beam has a wavelength 1 = 632.8 nm |(the correct wavelength). Perform the following calculations, or answer the following questions about your prized possession: 1) calculate the energy, E, of the He-Ne laser beam in electron volts (eV); 2) to your eyes, what color does this laser beam's wavelength correspond to (in air)?; 3) If this laser beam is focused into a 1 carat diamond, with index of refraction n = 2.42, calculate the speed of the He-Ne laser beam, as you check the quality of your purchase at Zale's Diamonds, with your best girl.5. Write down the definition of Gauss's law. Determine how we would obtain Coulomb's law from Gauss's law for a single charged particle. What other types of symmetries are there with Guass's law? Under what circumstance does Gauss's law not behave nicely? give an example.This is one question with 5 parts so it is not against guidelines to answer all 5 parts. Please use simplistic terminology for the answers doesn’t have to to be long.