Exciting Insights into Young's Double-Slit Experiment!

Which trial ranks highest in terms of the distance between the central maximum and the first-order side maximum on the screen?

Choose one of the following options:

(a) First trial with blue light and slits 400µm apart

(b) Second trial with red light and slits 400µm apart

(c) Third trial with red light and slits 800µm apart

(d) Final trial with red light, slits 800µm apart, and a screen 8m away

Answer:

The trial that ranks highest in terms of the distance between the central maximum and the first-order side maximum on the screen is:

(c) Third trial with red light and slits 800µm apart

Young's double-slit experiment provides fascinating insights into the behavior of light and interference patterns. The distance between the central maximum and the first-order side maximum on the screen is a crucial aspect to consider in these trials.

The ranking of the trials is determined by factors such as the wavelength of light, the distance between the slits, and the distance between the slits and the screen. By analyzing these factors, we can observe the impact on the distance between the maxima.

The ranking of the trials is as follows:

  • (c) Third trial with red light and slits 800µm apart - smallest distance between maxima
  • (a) First trial with blue light and slits 400µm apart
  • (d) Final trial with red light, slits 800µm apart, and a screen 8m away
  • (b) Second trial with red light and slits 400µm apart - largest distance between maxima

It's amazing to see how these variables affect the interference pattern and the ranking of the trials. Each trial provides valuable insights into the behavior of light and the phenomenon of interference. Dive deeper into the world of optics and explore the wonders of Young's double-slit experiment!

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