![]() The auditory signal is recommended for large classrooms where voltmeter observance may not be possible. The receiver signal can be observed through a voltmeter or as an auditory signal. Both receiver and transmitter are connected to a control box, which allows for transmitter signal amplification and for receiving signal options. In this experiment a microwave transmitter and receiver are used to study the properties of electromagnetic waves. A phase adjuster allows the incident wave front of one slit to be thrown out of phase with respect to the other slit to illustrate the interference pattern. Model has a variable slit width of 4.5 micron and 2.25 micron. This model graphically demonstrates the wave phenomena of double slit interference. The grating corresponds to a spacing of 6000 lines/ cm illuminated by sodium light at wavelength 5892 Angstroms.ĭimensions: width: 56 cm, height: 40.5 cm. This model demonstrates the principles of constructive and destructive interference as produced by the diffraction grating. The diffraction patterns are projected on a screen using a HeNe laser as light source (the same set-up used in the previous demonstration). The diffraction pattern of an opaque disk demonstrates the Poison's spot. One can also show the complementary diffraction patterns of a pinhole and an opaque disk. Slides with pinholes, gratings, different widths wires, and straight edges, circular and square apertures are available. With the double slit slide on, the single slit diffraction pattern can be recovered by using an opaque edge to carefully block one of the slits. ![]() ![]() The single slit slide has four different widths, and the double slit has four different spacing. O.2(5) - Single and Double Slit DiffractionĪ HeNe laser is used as the light source in the projection of diffraction patterns due to single slit and double slit slides. As the centers of the two plates are moved relative to one another, the interference patterns appear. Wave fronts are represented by concentric circles drawn on transparent plastic plates that fit in the overhead projector. This demonstration model gives a large graphic display of how interference occurs. A HeNe laser beam is also used as a light source. The same pattern appears but it is not as stable since as you move the contact point the pattern moves and distorts. One can also show that this interference pattern appears when a simple glass plate and a watch glass are set together and slightly pressed against each other. An interference pattern can be viewed off screen using other light sources. The projection can be made large enough to be seen by the whole class. The circular interference fringes can be projected on a screen using a HeNe laser beam. This apparatus consists of a flat plate and a convex lens of long focus, both 8.5 cm in diameter, mounted in brass frames fitted with three knurled compression screws. There are discharge tubes of: He, Xe, Ne, Ar and Hg. Spectral lines of 5 different gases and for white light are identified by the students with the help of individual transmission-type grating glasses. One can also shine the laser beam on a compact disk as an example of reflection-type diffraction grating. ![]() They are mounted between glass plates in a 3 cm x 9 cm slide card. This demonstration slide has three 9 mm x 16 mm gratings with 100, 300, and 600 lines per mm. The transmission-type diffraction grating flints on a stand just in front of a HeNe laser, and is brightly projected on the lecture room screen. Interference patterns produced by a diffraction grating are projected on a screen.
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