1 | The nature of light, the light propagation in an environment, measurement of the speed of light, photons of light features (photon, photon energy, Planck's constant) |
2 | Wave theory, electromagnetic waves, oscillating electric and magnetic fields (amplütüd, wavelength, frequency, electromagnetic wave spectrum, visible light), electromagnetic waves carry energy |
3 | Wave-particle duality, the particle model of light (photoelectric effect, the Compton effect ....), the wave properties of light (interference, diffraction ...), Maxwell's equations |
4 | Spectrum of electromagnetic waves, radio waves, micro-waves, infrared waves, ultraviolet waves (ultraviolet), x-rays, gamma rays |
5 | Geometric optics approach to light, reflection, refraction, reflection and refraction laws, the refractive index and the wave properties of light, total internal reflection, total internal reflection applications |
6 | Colors of the separation of white light and prisms, colorless prisms and lenses, magnifiers, photometers, lens-mirror combinations, Huygens' principle, Shadow |
7 | EXAM |
8 | Interference, coherence, polarization, and derstrüktif constructive interference, diffraction (diffraction), scattering, reflection, transmission and absorption of radiation, the light of illumination characteristics, laser sources, laser output, |
9 | Surface reflection and refraction of plane, plane mirrors generated images, the plane mirror exceptions |
10 | Global mirrors, concave mirrors (concave) |
11 | Convex Mirrors |
12 | Global surface reflectance images created global mirrors, spot image of the object, spherical mirror, the focal point and the focal length |
13 | Optical components and optical equipment |
14 | The graphical method for Mirrors, images formed by refraction, plane surfaces crusher, crusher optical elements, reflective optical elements |