Engineering Physics - I
Diffraction- Phenomenon of wave bending, distinguishing between Fresnel and Fraunhofer types, analyzing single-slit diffraction patterns, examining diffraction gratings and circular apertures, and understanding concepts like resolving power and X-ray diffraction using Bragg's Law.
Polarization- A property of transverse waves like light, would cover the fundamental concepts, methods of production, types, and various real-world applications. The topic demonstrates that light is a transverse wave, meaning its electric and magnetic fields oscillate perpendicularly to the direction of wave propagation.
Viscosity-The definition and nature of viscosity as a fluid's resistance to flow, including dynamic and kinematic viscosity. It also includes the measurement of viscosity using techniques like viscometry, the factors affecting viscosity (like temperature and pressure), and applications in various fields like lubrication and fluid dynamics.
Fluid dynamics-Fluid properties and statics, fluid kinematics (describing fluid motion), governing equations like the continuity and momentum equations (Euler's and Navier-Stokes), Bernoulli's principle, different flow types (viscous, inviscid, laminar, turbulent, compressible, incompressible), boundary layer theory, potential flow, and applications such as flow through pipes and around bodies.
General Physics Lab-1
Experiments on Electromagnetism, Oscillations, and Interference, specifically covering topics such as Gauss's and Ampere's laws, Young's modulus, Rigidity modulus, Carrey Foster method, Surface tension, Coefficient of viscosity, Newton's Ring, Angle of Prism using spectrometer, Magnetometers, Anderson's Bridge, Photoelectric cell, Moment of inertia of a flywheel, Diffraction grating.