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PHYS-207(c): General physics : quanta
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Lectures in this course (73)
General Physics: Quantum
Explores quantum physics, wave-particle duality, and optical phenomena like reflection and interference.
General Physics: Quantum - Image Formation and Geometrical Optics
Explores image formation, optics laws, wavefronts, and mirror reflections in physics.
Mirror Optics: Image Formation in Convex Mirrors
Explains image formation in convex mirrors using graphical and analytical methods.
Concave Mirror: Image Formation and Focal Length
Explores image formation in a concave mirror and how to find its focal length.
Concave Mirrors: Focal Length and Reflection Laws
Explores the focal length of concave mirrors and reflection laws.
QCM Exam Rules: Scoring, Strategies, and Guidelines
Explores scoring, strategies, and guidelines for multiple-choice exams.
General Physics: Quantum - Refractive Indices and Optics
Explores refractive indices, laws of refraction, and optical instruments.
Refraction in Layered Systems
Explores refraction in layered systems to determine apparent vs. actual depth.
Lens Converging: Object and Image Position Determination
Covers determining object and image positions using a converging lens and scale drawings.
Lens Exercise: Image Position and Nature
Covers the resolution of a lens exercise to determine image position and nature.
Light Refraction: Three-dimensional Analysis
Explores the refraction of light in a three-dimensional context, emphasizing emission efficiency calculations and refractive index considerations.
Snell's Law Application: Minimum Refractive Index
Explores the minimum refractive index for total internal reflection in a prism.
Thin Lenses: Image Formation in Doublet Configuration
Explains how to calculate the position of the final image in a doublet of thin lenses.
Quantum Physics Exam: QCM-2
Covers the second part of the Quantum Physics exam, focusing on format and submission guidelines.
General Physics: Quantum - Optical Instruments and Wave Properties
Explores optical instruments, wave properties, reflection, refraction, and interference phenomena in physics.
Interference Phenomenon: Double Slit Experiment
Explores the interference phenomenon in a double slit experiment to determine maximum positions and separation, analyzing the impact of factors like wavelength and slit width.
Interference of Light Sources
Explores the interference of light sources through calculations and applications.
Interference in Mirrors
Explores interference patterns in mirrors, calculating distances and conditions for observing bright fringes on a screen.
Double-Slit Interference: Intensity Formula Derivation
Explains the step-by-step derivation of the intensity formula for double-slit interference patterns.
General Physics: Quantum
Covers resolving power, interference, thin layers, diffraction, and Rayleigh criterion.
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