Dispersion of Light by a Prism1970-01-01T00:00:00+00:00Simulation of Dispersion of Light by a Prism. The refractive index varies for different wavelengths of light. Blue light is refracted more than red light. This causes the different coloured light beams hitting the prism to emerge at slightly different ...PT2Shttps://d3e1m60ptf1oym.cloudfront.net/1e1506ea-69e9-49ed-aeea-4520f0d10361/PRISM-spectrum-FHD-Russell-Kightley_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/1e1506ea-69e9-49ed-aeea-4520f0d10361/PRISM-spectrum-FHD-Russell-Kightley_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/optics/-/medias/1e1506ea-69e9-49ed-aeea-4520f0d10361/pricehttps://www.scientific.pictures/-/galleries/optics/-/medias/1e1506ea-69e9-49ed-aeea-4520f0d10361/price
Rotating Prism
Animation of monochromatic (single colour) light beam passing through a triangular prism which rotates. The light striking the prism is refracted and sometimes reflected in this simulation.
Animation ID: Prism-rotating-FHD-Russell-Kightley
Duration: 00:08
copyright Russell Kightley
Animation resolution: 1920x1080 pixels @ 30.0 fps, ~8.0 Mbits/s
Animation keywords: glass, index, lens, lenses, light, optical, optically dense, optics, physics, prism, prismatic, ray, refracted, refraction, refractive, rotate, rotating, total internal reflection, turning
Rotating Prism2020-08-12T07:42:35ZAnimation of monochromatic (single colour) light beam passing through a triangular prism which rotates. The light striking the prism is refracted and sometimes reflected in this simulation.PT8Shttps://d3e1m60ptf1oym.cloudfront.net/1be2e213-e1e5-4dc5-9e1f-991300c6ffe8/Prism-rotating-FHD-Russell-Kightley_xlarge.jpghttps://d3e1m60ptf1oym.cloudfront.net/1be2e213-e1e5-4dc5-9e1f-991300c6ffe8/Prism-rotating-FHD-Russell-Kightley_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/optics/-/medias/1be2e213-e1e5-4dc5-9e1f-991300c6ffe8/pricehttps://www.scientific.pictures/-/galleries/optics/-/medias/1be2e213-e1e5-4dc5-9e1f-991300c6ffe8/price
Linear Polarization1970-01-01T00:00:00+00:00POLARISING FILTERS: work by selectively absorbing visible light (or other forms of electromagnetic radiation) whose electrical component lies parallel to conducting elements in the filter. The upper light wave is shown with its electrical component (ye...PT32Shttps://d38zjy0x98992m.cloudfront.net/27218b11-5157-42a8-8a04-9737977bd6e5/POLARIZATION_Linear_UHD_Looped_PR_xlarge.jpghttps://d38zjy0x98992m.cloudfront.net/27218b11-5157-42a8-8a04-9737977bd6e5/POLARIZATION_Linear_UHD_Looped_PR_mp4_hd_video.mp4https://www.scientific.pictures/-/galleries/optics/-/medias/27218b11-5157-42a8-8a04-9737977bd6e5/pricehttps://www.scientific.pictures/-/galleries/optics/-/medias/27218b11-5157-42a8-8a04-9737977bd6e5/price