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Canvas Print : Electron diffraction pattern
Canvas Prints from Science Photo Library
Electron diffraction pattern
Electron diffraction pattern. Demonstration of wave-particle duality. An electron gun has been fired at a thin sheet of graphite. The electrons passed through and hit a luminescent screen, producing the patterns of rings associated with diffraction. Diffraction occurs when a wave passes through an aperture similar in size to its wavelength. But electrons are particles, so should not exhibit the same phenomenon unless they can also behave like waves. De Broglie (1892- 1987) correctly deduced that this was the case and that particles have wavelengths inversely proportional to their momentum
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6274341
© ANDREW LAMBERT PHOTOGRAPHY/SCIENCE PHOTO LIBRARY
Diffracting Diffraction Pattern Electron Electrons Patterns Quantum Mechanics Ring Rings Physical
20"x16" (51x41cm) Canvas Print
Bring the fascinating world of science into your home with Media Storehouse's Canvas Prints. This captivating Electron Diffraction Pattern image, sourced from Science Photo Library, is a testament to the wave-particle duality of subatomic particles. The intricate design, created by the scattering of electrons off a thin graphite sheet, is sure to ignite curiosity and inspire conversation. Our high-quality canvas prints are made to order with vibrant colors and sharp details, making this mesmerizing scientific phenomenon a stunning addition to any room.
Delivered stretched and ready to hang our premium quality canvas prints are made from a polyester/cotton blend canvas and stretched over a 1.25" (32mm) kiln dried knot free wood stretcher bar. Packaged in a plastic bag and secured to a cardboard insert for safe transit.
Canvas Prints add colour, depth and texture to any space. Professionally Stretched Canvas over a hidden Wooden Box Frame and Ready to Hang
Estimated Product Size is 50.8cm x 40.6cm (20" x 16")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) orientation to match the source image.
EDITORS COMMENTS
This print showcases an astonishing electron diffraction pattern, serving as a remarkable demonstration of the perplexing wave-particle duality. The image captures the aftermath of an electron gun being fired at a delicate sheet of graphite, with the electrons effortlessly passing through and ultimately colliding with a luminescent screen. As a result, intricate patterns of rings emerge on the screen's surface, symbolizing the phenomenon known as diffraction. Diffraction typically occurs when a wave traverses an aperture that closely matches its wavelength. However, what makes this occurrence truly extraordinary is that electrons are traditionally considered particles rather than waves. Yet here they are, exhibiting similar behavior to waves by producing these mesmerizing diffraction patterns. The brilliant mind of De Broglie (1892-1987) ingeniously deduced this puzzling connection between particles and their associated wavelengths. He proposed that all particles possess wavelengths inversely proportional to their momentum—a revolutionary concept in quantum mechanics. This thought-provoking photograph not only highlights the enigmatic nature of electrons but also pays homage to De Broglie's groundbreaking hypothesis. It serves as a testament to how science continually challenges our understanding of reality and pushes us towards new frontiers in physics.
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