الانتقال الى المحتوى الأساسي

# الأهداف التفصيلية لمادة ضوء

Objectives of PHYS 311

 No. Objective 1.1 Describes the dual nature of light 1.2 Calculates photon's energy, wavelength, and momentum 1.3 Distinguishes between the different parts of an electromagnetic spectrum 2.1 Define the Hygen's Principle 2.2 Describes the Fermat's Principle 2.3 Apply Fermat's Principle to reflection 2.4 Apply Fermat's Principle to refraction 2.5 Computes the image using a plane mirror 2.6 Demonstrates the use of Snell's law for refraction through plane surfaces 2.7 Demonstrates the use of reflection law of a spherical mirror 2.8 Demonstrates the use of refraction laws of a spherical surface 2.9 Solve the Len's Maker equation for thin lenses 2.10 Computes the refractive power of lenses 2.11 Derives Newton's equation for thin lens 3.1 Explain the operation of an optical instrument 4.1 Derive the one dimensional wave equation 4.2 Describe the harmonic wave and its components 4.3 Conversion of harmonic wave to complex notation 4.4 Differentiate between different typs of waveforms 4.5 Computes the energy and power of an electromagnetic wave 4.6 Explain the polarization of light and its type 4.7 Explain the Doppler effect of light 5.1 Define the supersposition principle of waves 5.2 Demonstrate the constructive and destructive interference of two waves of the same frequency 5.3 Illustrate the use of the phasor method to obtain the superposition in a general case 5.4 Distinguish between the random and coherent sources 5.5 Derive the standing wave formula and its discription 5.6 Describe the beat phenomena 5.7 Derive the phase and group velocity 6.1 Solve the interference of two mutually incoherent fields 6.2 Solve the interference of two mutually coherent fields 6.3 Computes the interference from a Young double slit 6.4 Computes the interference from a thin dielectric film 7.1 Construction of a Michelson interferometer 8.1 Derive the formula for diffraction from a single slit 8.2 Computes the beam spreading 8.3 Derive the formula for diffraction from a rectangular and circular aperatures 8.4 Illustrates the effect of diffraction on the resolution of an image 8.5 Derive the formula of diffraction from a double slit 8.6 Derive the formula of diffraction from many slits 9.1 Define polarization and its types 9.2 Solve Mauls' law to find the intensity of light through dichoric materials 9.3 Derive the absorptivity of a material 9.4 Demonstrate the polarization by reflection from diaelectric surfaces 9.5 Describe polarization by scattering 9.6 Define birefringence and double refraction 9.10 Compute the optical activity of a material 10.1 Write a short essay on the application of light in life

 آخر تحديث 2/22/2013 11:54:52 AM