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Linear optical bench, optical filters, polychromatic and monochromatic light

Function

Intended for experimental study, physics laboratory and carrying out physics experiments on: Physics. Light and optics. Gauss's law, the relationship between the object, the lens and the image. The Gaussian reference. The function of conjugate points, Gauss's equation. Transverse linear magnification, magnification. Classification of the image formed by the lens as a function of the linear magnification sign. The construction of some optical instruments. Constructing a magnifying glass. Constructing a compound optical microscope. The conjugate image. The transverse linear magnification or magnification of the compound microscope. Constructing a terrestrial telescope. Modern physics. Light and physical optics. Measuring the average wavelength of the colors of the continuous spectrum of light, diffraction. Diffraction and Huygens's principle. Light interference, Young's double-slit experiment and the wavelength of light. Observing and classifying the colors of the white light spectrum. Determining the wavelength of the red radiation of the white light spectrum. Determining the wavelength of the radiation of the other colors of the white light spectrum. Measurement of the wavelength of the spectral lines of mercury, high shoes. Diffraction of light by holes and slits. Diffraction and Huygens' principle. The central point and the central maximum. Regions of constructive interference. The behavior of light when passing through a hole. The behavior of light when passing through three pairs of double slits. The behavior of light when passing through three sets of consecutive slits. Using a hole of known diameter to determine the wavelength of the laser. The angle of diffraction. The Bessel function and the equation to find the wavelength of the laser. Diffraction of light from a laser by a diffraction grating with a lattice constant of 1.00 x 10-6 m. What does Huygens' principle say? Diffraction and Huygens' principle. Points of constructive interference. Diffraction of light from a laser with a diffraction grating with a lattice constant of 8.33 x 10-5 m. Comparing the polarization of light from a laser with the polarization of polychromatic light. Light, polarization of light and the polaroid. Plane polarized light. Luminous flux density on a surface. The difference between luminous flux and radiant flux. Illumination of a surface, surface density of luminous flux. Lumen and lux. The relationship between illumination and the distance between the light source and the illuminated surface. Illumination on the illuminated area. Measuring the illumination on the illuminated area, with a lux meter. Malus' law, lux meter. Light, polarization of light and the polaroid. Plane polarized light. Transmitted light and the amplitude of the electric field. What Malus' law says. The relationship between the intensity of the light transmitted by the polarizer and the intensity of the incident light, etc. Note: Does not include an overhead projector.

Cidepe - Industrial Center for Teaching and Research Equipment - is a company of reference in educational instruments in educational institutions in Brazil and abroad. With an experienced team of engineers, professors, researchers, consultants and other collaborators, Cidepe develops products with technology and human talent to improve the teaching dynamics.
The entire history of pioneering spirit and work focused on customer needs makes the Cidepe brand increasingly present in the lives of thousands of students, bringing greater participation and interest to the knowledge experience in the areas of Chemistry, Physics and Biology. Contact our sales team, we are available to assist your educational institution on this journey towards practical knowledge.

Key Experiments

  • » The principles of geometrical optics - 1062.004S01
  • » Simulation of the eclipse of the Sun and identification of the umbra and penumbra - 1062.004S02
  • » Simulation of the eclipse of the Sun and the eclipse of the Moon, the umbra and the penumbra - 1062.052B
  • » The number of images formed between two flat mirrors with an angle between them - 1062.004E
  • » The reflection in the plane mirror - 1062.004S03
  • » The image formed in a plane mirror and its characteristics - 1062.004D
  • » An application of multiple reflections between flat mirrors - 1062.004S04
  • » The reflection in concave and convex spherical mirrors - 1062.004S05
  • » The refraction of light and its laws, the diopters - 1062.004S06
  • » The refraction and dispersion of light in optical prisms of 90 and 60 degrees - 1062.004S07
  • » The spherical lenses and its main characteristics - 1062.004S08
  • » The relationship between the object lens and the image generated by the lens - 1062.004S09
  • » Vision defects, correction of hyperopia and myopia with lenses - 1062.004S10
  • » The construction of some optical instruments - 1062.004P
  • » The measurement of the average wavelength of the colors of the continuous spectrum of light, interference - 1062.004S11
  • » The total reflection, fiber optics - 1062.004S12
  • » Diffraction of laser by grating, lattice constant 1.00 x 10-6 m - 1062.003M1
  • » The measurement of the diameter of the thread of an opaque fabric to the laser - 1062.003M2
  • » Comparing the polarization of the laser diode and polychromatic light. - 1062.003N
  • » The Rayleigh scattering - 1062.003N2
  • » Dithering derived by light superposition - 1062.052A
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