Steampunk Eye with Varying Lens 1970-01-01T00:00:00+00:00Steampunk styled artificial eye whose lens changes shape. A collimated light beam enters the eye from the brass lamp at the left. The path of the light through the eye is shown as a series of sections (bright green). The animation starts with the eye f...PT8Shttps://d3e1m60ptf1oym.cloudfront.net/163a05e9-edcf-4a2b-8c27-f96d0e2613f4/Steampunk-Eye-Lens-Changing-Shape-FHD-Russell-Kightley_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/163a05e9-edcf-4a2b-8c27-f96d0e2613f4/Steampunk-Eye-Lens-Changing-Shape-FHD-Russell-Kightley_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/animations/-/medias/163a05e9-edcf-4a2b-8c27-f96d0e2613f4/pricehttps://www.scientific.pictures/-/galleries/animations/-/medias/163a05e9-edcf-4a2b-8c27-f96d0e2613f4/price
Standing Wave Summation
Animation showing how the standing wave is formed by the addition of a wave (green) and its reflection (red). The resulting (purple) wave is formed by the sum of these two waves. Notice how at fixed points the standing wave has no amplitude. These points are called nodes and their positions are shown by fine grey vertical lines. Standing waves like these are set up in musical instruments and there are various harmonic frequencies that can form these standing waves inside a given resonator.
Animation ID: Standing-wave-summation-perspective-FHD-Russell-Kightley
Duration: 00:00:02
copyright Russell Kightley
Animation resolution: 1920x1080 pixels @ 30.0 fps, ~141.9 Mbits/s
Animation keywords: addition, amplitude, crest, frequency, harmonic, instrument, interference, light, music, musical, nodal, node, nodes, oscillate, oscillating, oscillation, pattern, phase, physics, point, propagate, propagated, propagation, pulse, pulses, resonance, resonator, ripple, sinuoidal, standing, standing wave, sum, superposition, superpositioning, transverse, travelling, trough, undulate, undulation, vibrating, vibration, wave, waveform, wavelength, waves
Standing Wave Summation2019-04-10T07:16:22ZAnimation showing how the standing wave is formed by the addition of a wave (green) and its reflection (red). The resulting (purple) wave is formed by the sum of these two waves. Notice how at fixed points the standing wave has no amplitude. These poin...PT2Shttps://d3e1m60ptf1oym.cloudfront.net/1a7eaa93-c9d9-40e9-b961-6668c7598739/Standing-wave-summation-perspective-FHD-Russell-Kightley_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/1a7eaa93-c9d9-40e9-b961-6668c7598739/Standing-wave-summation-perspective-FHD-Russell-Kightley_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/animations/-/medias/1a7eaa93-c9d9-40e9-b961-6668c7598739/pricehttps://www.scientific.pictures/-/galleries/animations/-/medias/1a7eaa93-c9d9-40e9-b961-6668c7598739/price
Standing Wave Summation1970-01-01T00:00:00+00:00Animation showing how the standing wave is formed by the addition of a wave (green) and its reflection (red). The resulting (purple) wave is formed by the sum of these two waves. Notice how at fixed points the standing wave has no amplitude. These poin...PT4Shttps://d3e1m60ptf1oym.cloudfront.net/e5f969bd-5bf7-44ea-975e-8f04aab7f149/STANDING-WAVE-Russell-Kightley-FHD_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/e5f969bd-5bf7-44ea-975e-8f04aab7f149/STANDING-WAVE-Russell-Kightley-FHD_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/animations/-/medias/e5f969bd-5bf7-44ea-975e-8f04aab7f149/pricehttps://www.scientific.pictures/-/galleries/animations/-/medias/e5f969bd-5bf7-44ea-975e-8f04aab7f149/price