The Beauty of Diffraction Patterns: Let's Explore the World of Light!

How can we witness the mesmerizing diffraction pattern of light?

Given the wavelength of light from a helium-neon laser being 633 nm, along with the diameter of the hole at 0.5 mm and the central maximum diameter at 3.0 mm, what is the ideal distance for the viewing screen to be placed?

Answer:

The ideal distance for the viewing screen to be placed in order to observe the diffraction pattern with a central maximum diameter of 3.0 mm is 0.97 m.

Witnessing the mesmerizing diffraction pattern of light is truly a captivating experience that allows us to delve into the wonders of physics and the behavior of light. By understanding the principles of diffraction, we can appreciate the intricate patterns that light can create.

In the scenario provided, the specific details of the wavelength of light, the diameter of the hole, and the central maximum diameter all play a crucial role in determining the distance at which the viewing screen should be placed. The calculation involved in finding this distance showcases the precision and beauty of scientific equations.

With the ideal distance of 0.97 m, one can observe the diffraction pattern with a central maximum diameter of 3.0 mm with clarity and awe. This distance allows for the optimal viewing of the intricate patterns formed by the interaction of light waves passing through a small hole.

As we continue to explore the world of light and diffraction, we unveil the mysteries and beauty of the natural phenomena that surround us. Observing diffraction patterns serves as a reminder of the complexity and elegance of the physical world, inspiring us to further delve into the realms of science and discovery.

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