Light through polaroid and calcite, using arc lamp.

6H35.10 • E+45+40

diagram for demo

A beam of white light hits a calcite crystal which is mounted in a holder that can rotate. The light entering the crystal is refracted into two separate plane-polarized beams. One beam, called the ordinary beam (O), is polarized perpendicular to the plane of incidence (the plane of the paper). The O beam obeys Snell's law. The other beam, called the extraordinary beam (E) is polarized parallel to the plane of incidence. The E beam has a different index of refraction than the O beam, and does not obey Snell's law. See figure 1. The crystal is oriented so that the O beam is stationary, and the E beam rotates about the O beam as the crystal is rotated. Using the Polaroid, one sees that the O beam will be bright when the E beam is extinguished, and the O beam will be extinguished when the E beam is bright. See figure 2. Light through calcite and polaroid using arc lamp. Ref.: Fundamentals of Physical Optics,-Jenkins & White,1st Ed., p.321-325 This demo can be done with a 15 mw laser and -10 f.l. lens instead of a carbon arc. Note: Beams Projected on Screen

gallery

Related Demos

6H35.30 Light through Nicol prism and Nicol analyzer, using arc lamp. 6H35.52 Quartz prisms give a single and double spectrum, using arc lamp. 6H35.50 Polarized light and stressed lucite on an OHP. 6H35.40 Circular polarization with quarter wave plate, using arc lamp. 6H35.17 Visible nodes and antinodes in linearly birefringent plexiglass rod.

E+45+61 Shiny object turns black viewed through linear polarizer and quarter wave plate E+45+0 Two picket fence sections with slats and rope to make waves. E+45+5 Microwaves with grid. Transmitter and receiver are polarized. E+45+10 Malus experiment: Polarization by reflection off glass surface. E+45+15 Polarization of light by internal reflection: Fresnel rhomb. E+45+20 Polarization of light through a pile of glass plates, using arc lamp. E+45+25 Commercial Polaroid filters on an OHP. E+45+30 Plaster models of positive and biaxial crystals. E+45+35 Two tourmaline crystals act as polaroids, using arc lamp. E+45+45 Model of a calcite crystal. E+45+50 Light through Nicol prism and Nicol analyzer, using arc lamp. E+45+55 Quartz prisms give a single and double spectrum, using arc lamp. E+45+60 Polarized light and stressed lucite on an OHP. E+45+65 Optical rotation of polarized light by sugar solution, using arc lamp. E+45+70 Optical rotation by sugar solution produces barber pole, using arc lamp. E+45+75 Mechanical model to show circular polarization; hand-cranked. E+45+80 Circular polarization with quarter wave plate, using arc lamp. E+45+85 Circular polarization of microwaves by elliptical metal tube. E+45+90 Circular polarization of microwaves: With reflector and grids. E+45+95 Polarized light thru Karo syrup shows dark bands, using arc lamp. E+45+100 10_ retarder plate makes dark bands in spectrum, using arc lamp. E+45+105 Sunset: solution in tank scatters blue light, using arc lamp. E+45+110 Visible nodes and antinodes in linearly birefringent plexiglass rod. E+45+115 Applet: Polarization of Light (3-D Version)