"This collection of computer-animated video shorts explores the particle approach to studying light."@en
"Exploring the antithesis of the wave model, this album of eight computer-animated video segments looks at the particle approach to studying light. Black-body radiation, Planck's constant, the Photoelectric Effect, and the work of James Clerk Maxwell are presented as forerunners to Einstein's concept of photon frequency. Examples of a slope intercept graph and a revised double-slit experiment using light-sensitive paper segue to an illustration of the Compton Effect, establishing that light consists of a stream of particles. De Broglie's contributions introduce wave-particle duality-which some might consider a muddy solution, although it represents the best that current science can do."@en
"Exploring the antithesis of the wave model, this album of eight computer-animated video segments looks at the particle approach to studying light. Black-body radiation, Planck's constant, the Photoelectric Effect, and the work of James Clerk Maxwell are presented as forerunners to Einstein's concept of photon frequency. Examples of a slope intercept graph and a revised double-slit experiment using light-sensitive paper segue to an illustration of the Compton Effect, establishing that light consists of a stream of particles. De Broglie's contributions introduce wave-particle duality-which some might consider a muddy solution, although it represents the best that current science can do. (46 minutes)."@en
"Eight computer-animated video segments look at the particle approach to studying light."@en
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