![]() If the incident angle increases past a specific value (dependent upon the refractive index of the two media), it reaches a point at which the angle is so large that no light is refracted into the medium of lower refractive index, as illustrated in Figure 1. The refraction or reflection angle at the interface is continuously calculated using Snell's Law, and displayed beneath the sliders. ![]() After a specific medium has been examined, a new material having a different refractive index (and critical angle) can be selected from the Choose A Material pull-down menu. The Wavelength slider can be employed to vary the wavelength of the incident, refracted, and reflected waves. At the critical angle for the material through which the incident light ray propagates (48.75 degrees for the default material, water), the light will be totally internally reflected at the interface back into the material without passing through and undergoing refraction. In order to operate the tutorial, use the Incident Angle slider to adjust the value of the incident light wave (impacting the interface) between a value of zero and 60 degrees. At the interface, the light wave is refracted by the angle q(r) and passes through the air in a straight trajectory after being deviated. ![]() The tutorial initializes with an incident light wave (represented by a sine function) emerging from a water-air interface at an incident angle of 30 degrees. This interactive tutorial explores the transition from refraction to total internal reflection as the angle of the incident wave is increased at constant refractive index. Upon passing through a medium of higher refractive index into a medium of lower refractive index, the path taken by light waves is determined by the incident angle with respect to the boundary between the two media. Interactive Java Tutorials The Critical Angle of ReflectionĪn important concept in optical microscopy is the critical angle of reflection, which is a necessary factor to consider when choosing whether to use dry or oil immersion objectives to view a specimen at high magnification. Molecular Expressions Microscopy Primer: Light and Color - The Critical Angle of Reflection: Interactive Java Tutorial
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