SF (12-13)/ SF (10 -11)
Objectives
- Study the polarization of light and determine the specific rotation of sugar solution.
- Study the interference phenomenon and determine the wavelength of the used laser using the Michelson interferometer.
- Study the interference in Young's double-slit experiment.
- Determine the focal point of a convex lens.
- Determine the angle of minimum deviation using a spectrometer.
- Study the photoelectric effect.
Applications
Polarization/ The Hydrogen Atom Spectrum / Michelson Interferometer / Young's Double-Slit/ Dispersion of Light by Prism/ Photoelectric Cell.
Tools and devices
- Laurent's half-shade polarimeter / A sodium-vapor lamp / Polarimeter tubes / Different concentrations of glucose solutions.
- Spectrometer / Mercury light source / A sodium-vapor lamp / Diffraction grating (600 LINES /MM).
- Spectroscope /Hydrogen light source/ Power Supply / Slotted Diffraction (15000 LINES /INCH).
- Michelson Interferometer / Viewing screen / Helium-Neon laser
- Helium-Neon laser/ Young's Double-slit holder / Slit plate/ Viewing screen.
- Optical bench, 1 m /Clamp rider with fixing column /Clamp rider with clamp 45/65 /Lamp housing with cable /Condenser with diaphragm holder /Diaphragm and slide holder / Transformer 6/12 V / Screen, translucent / Lens (f = +100 mm).
- Spectrometer / Mercury light source / Triangular Prism.
- DC Current Amplifier/ DC Power Supply I (Constant Voltage)/Photodiode/ Mercury Light Source/Optical Filters.
