Add to ORKGA ray of light is bent on passing from air to a liquid because its wavefront moves more slowly in water than in air. This change in angle is proportional to the propagation velocities, which are often specified by giving the refractive indices of the materials. By definition, a vacuum has a refractive index of 1. In passing from a slow to a fast medium, total reflection will occur if the angle between the incoming ray and the normal vector of the boundary surface is larger than the critical angle. In that case the incoming angle is equal to the outgoing angle. The red line indicates the surface boundary which is hit by a ray, and the green line shows its normal vector. The angle between the ray and the surface normal is shown as an orange d...
The phenomenon of total internal reflection is considered in terms of exact solutions of Maxwell equ...
The aim of this investigation is to reveal the relationship between speed of light and the density o...
This lecture, presented by John Souders, covers the basics of total internal reflection as it relate...
A ray of light is bent on passing from air to a liquid because its wavefront moves more slowly in wa...
Generally the light transmitted as a radiation in a certain velocity whose value depends on the type...
A collimated beam of light originating within a tank of water leaves the water from the top surface,...
Light rays that travel from a medium of higher optical density, such as glass, to a medium of lower ...
When writing a ray tracer, sooner or later you’ll stumble on the problem of reflection and transmiss...
We derive three alternative formulas for the refracted ray direction in ray tracing in order to prov...
This animation is very similar to the previous one. It allows you to explore Snell's law again, only...
The total internal reflection method is a standard method by which the refractiveindex of the materi...
<p>(1A) Light hits the surface where air (n<sub>t</sub>) meets glass (n<sub>i</sub>). If light enter...
Optical fibers transmit light signals and are widely used in the telecommunications industry to tran...
The ability to model the propagation of light is a vital element of understanding any display techno...
Sight is certainly one of our most important senses and depends on the interaction of electromagneti...
The phenomenon of total internal reflection is considered in terms of exact solutions of Maxwell equ...
The aim of this investigation is to reveal the relationship between speed of light and the density o...
This lecture, presented by John Souders, covers the basics of total internal reflection as it relate...
A ray of light is bent on passing from air to a liquid because its wavefront moves more slowly in wa...
Generally the light transmitted as a radiation in a certain velocity whose value depends on the type...
A collimated beam of light originating within a tank of water leaves the water from the top surface,...
Light rays that travel from a medium of higher optical density, such as glass, to a medium of lower ...
When writing a ray tracer, sooner or later you’ll stumble on the problem of reflection and transmiss...
We derive three alternative formulas for the refracted ray direction in ray tracing in order to prov...
This animation is very similar to the previous one. It allows you to explore Snell's law again, only...
The total internal reflection method is a standard method by which the refractiveindex of the materi...
<p>(1A) Light hits the surface where air (n<sub>t</sub>) meets glass (n<sub>i</sub>). If light enter...
Optical fibers transmit light signals and are widely used in the telecommunications industry to tran...
The ability to model the propagation of light is a vital element of understanding any display techno...
Sight is certainly one of our most important senses and depends on the interaction of electromagneti...
The phenomenon of total internal reflection is considered in terms of exact solutions of Maxwell equ...
The aim of this investigation is to reveal the relationship between speed of light and the density o...
This lecture, presented by John Souders, covers the basics of total internal reflection as it relate...
