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
Spherical Wave Interference
Animation of two spherical wave sources creating interference. Two sources produce spherical waves that radiate outwards. As the wavefronts expand, they get less dense. When the two waves cross each other they interfere creating a characteristic pattern.
Animation ID: spherical-waves-blur-FHD-Russell-Kightley
Duration: 00:08
copyright Russell Kightley
Animation resolution: 1920x1080 pixels @ 30.0 fps, ~71.7 Mbits/s
Animation keywords: amplitude, beams, constructive, crest, destructive, diffraction, displacement, double, frequency, interference, light, nodal, oscillate, oscillating, oscillation, pattern, phase, physics, point, propagate, propagated, propagation, pulse, pulses, rays, ripple, sinuoidal, sum, superposition, superpositioning, transverse, travelling, trough, undulate, undulation, vibrating, vibration, wave, waveform, wavelength, waves
Spherical Wave Interference2019-04-10T07:15:42ZAnimation of two spherical wave sources creating interference. Two sources produce spherical waves that radiate outwards. As the wavefronts expand, they get less dense. When the two waves cross each other they interfere creating a characteristic pattern.PT8Shttps://d3e1m60ptf1oym.cloudfront.net/c5914c44-10c0-406c-9ffa-449a1fbbebf2/spherical-waves-blur-FHD-Russell-Kightley_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/c5914c44-10c0-406c-9ffa-449a1fbbebf2/spherical-waves-blur-FHD-Russell-Kightley_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/animations/-/medias/c5914c44-10c0-406c-9ffa-449a1fbbebf2/pricehttps://www.scientific.pictures/-/galleries/animations/-/medias/c5914c44-10c0-406c-9ffa-449a1fbbebf2/price
Surface Area of a Sphere 1970-01-01T00:00:00+00:00The surface area of a sphere is opened up to illustrate how the formula surface area = 4 π r2 can be understood. The animation starts with a sphere (orange) with its equator shown in yellow. Latitudes north and south are shown as horizontal red rings. ...PT32Shttps://d3e1m60ptf1oym.cloudfront.net/e2a9985c-0478-48a8-81cf-73272184701a/Sphere-Area-Orange-Ball_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/e2a9985c-0478-48a8-81cf-73272184701a/Sphere-Area-Orange-Ball_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/animations/-/medias/e2a9985c-0478-48a8-81cf-73272184701a/pricehttps://www.scientific.pictures/-/galleries/animations/-/medias/e2a9985c-0478-48a8-81cf-73272184701a/price