Add to ORKGThis lecture, presented by John Souders, covers the basics of refraction as the concept relates to the fundamentals of light and lasers. In 15 minutes, Souders defines refraction (the bending of a light wave when it passes from one medium to another) and describes the conditions necessary for refraction to happen. Souders spends the second half of the video discussing the speed of light in transparent materials and presents an applet that helps demonstrate refraction on a personal computer.&nbsp
This video is part of a series from Laser-Tec that introduces learners to geometrical optic...
This lab activity, presented by John Chamberlain, examines the effects of prisms and lenses on light...
The speed of light is constant in a vacuum—but what about in the everyday world? This collection of ...
This lecture, presented by John Souders, covers the basics of refraction as the concept relates to t...
This lecture, presented by Dr. Chrys Panayiotou, covers the basics of diffraction as it relates to t...
This video, from the Laser and Fiber Optics Regional Center, is the second of eight lectures in the ...
This lecture, presented by John Souders, covers the basics of total internal reflection as it relate...
This video, from the Laser and Fiber Optics Regional Center, is the first of eight lectures in the I...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This video is part of a series from Laser-Tec that introduces learners to geometrical optic...
This lab activity, presented by John Chamberlain, examines the effects of prisms and lenses on light...
The speed of light is constant in a vacuum—but what about in the everyday world? This collection of ...
This lecture, presented by John Souders, covers the basics of refraction as the concept relates to t...
This lecture, presented by Dr. Chrys Panayiotou, covers the basics of diffraction as it relates to t...
This video, from the Laser and Fiber Optics Regional Center, is the second of eight lectures in the ...
This lecture, presented by John Souders, covers the basics of total internal reflection as it relate...
This video, from the Laser and Fiber Optics Regional Center, is the first of eight lectures in the I...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This video is part of a series from Laser-Tec that introduces learners to geometrical optic...
This lab activity, presented by John Chamberlain, examines the effects of prisms and lenses on light...
The speed of light is constant in a vacuum—but what about in the everyday world? This collection of ...