wave, you can select the Manual or Oscillate radio button in the s interval of t

Question

wave, you can select the Manual or Oscillate radio button in the s interval of times in which you generate a pulse while varying its amplitude (how far the pulse travels vertically) and width (quick movenent for smaller width, slow movement for larger width) In a short amount of time (within 10-20 "shakes" or pulses), you will be able to observe an overall wave with various amplitudes that change over time. mulation as well as Fixed End or Loose End, then randomize the Part C For the wave of light you generated in the previous part, calculate the amount of energy in 1.0 mol of photons with that frequency/wavelength Recall that the Avogadro constant is 6.022 1023 mori. Express the energy in Joules to two significant figures. Total energy Submit O Type here to search

Explanation / Answer

Energy of single photon (with given frequency) = h(planck's constant) * frequency (f)

=> 6.626 * 10^(-34) * 5 * 10^9

=> 3.313 * 10^(-25) J

Energy of 1 mole of photons = Energy of one single photon * avogdro number

=> 6.022 * 10^(23) * 3.313 * 10^(-25)

=> 19.95 * 10^(-2) J

=> 0.20J [Rounded off answer to two significant digits]

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