Physics Complete Course Lectures for CSS and PMS | CSS and PMS Physics Syllabus, and papers pattern скачать в хорошем качестве

Physics Complete Course Lectures for CSS and PMS | CSS and PMS Physics Syllabus, and papers pattern

#css #cssphysics #css2023 #pms #pms2022 #physicssyllabus #cssphysics #physicslectures #fpscjobs #csssyllabus #pmssyllabus Physics CSS & PMS Syllabus (Total Marks 200) PAPER - I (Marks 100) Mechanics • Vectors - Dots, Cross and triple products, Gradient, divergence, and applications. • Newtonian laws of motion; conservation law of energy; conservation of linear and angular momentum; Dynamics of a rigid body; spin and pie-cession; gyroscope; Gravitation; planetary motion including satellite. • Special theory of relativity. Michelson - Morley experiment and Einstein's postulates; Lorentz transformation; time dilation and length contraction; equivalence of mass and energy. Fluid Mechanics • Surface tension; Viscosity; Elasticity; fluid motion and Bernoulli’s theorem. Waves and Oscillation • Free oscillation with one and two degrees of freedom; forced and damped oscillations and phenomenon of resonance. Traveling waves and transmission of energy; Phase and Group velocity; standing waves. • Reflection, Refraction, Interference, Diffraction, and Polarization of waves; interferometer and Newton's rings; Diffraction Gratings and their resolving power; spectro-meters. Electromagnetic wave equation: normal and anomalous dispersion; coherence, laser, and its application. Heat and Thermodynamics • Perfect gas and Van der Waals equation; Three Laws of Thermodynamics, Thermal properties of Simple system production and measurement of low temperatures; kinetic theory of gases; Maxwellian distribution of molecular velocities; Brownian motion: Transport phenomena. Classical Maxwell -Boltzmann Statistics and its application: Quantum Bose-Einstein and Fermi-Dirac Statistics. PAPER - II (Marks-100) ________________________________________ Electricity and Magnetism • Electric field due to point charges, Gauss' law Electric potential, and Poisson and Laplace's equation Dielectric medium and Polarization: • Capacitance; Moving charges and magnetic field Ampere's law; Vector potential; Magnetic properties of matter; Transient current: Faraday's law of electromagnetic induction; Alternating current and LRO circuit. Maxwell's equations; Poynting theorem and Poynting Vector. Electronics • Thermionic emission; Space charge: Diode. Triode Tetrode; Pentode and their static and dynamic characteristics; Amplitude modulation and demodulation or detection. Various basic circuits for rectification, amplification modulation, and detection connected with radio receivers and transmission; n and p-type semiconductors; Biased function; Transistors; Common base and common emitter configurations. Atomic Physics • Bohr theory and quantum numbers including electron spin; Pauli's exclusion principle; Spectra of simple systems with one or two valence electrons. Photoelectric effect Compton scattering; pair production; Lande's g factor and Zeeman effect. Renan effect; Waves and particles and De Broglie's Hypothesis; Shrodinger wave equation and its application to the one-dimensional harmonic oscillator. Heisen berg's uncertainly principle. Nuclear Physics • Structure of Nuclei; Radioactivity infinity, beta, and decay. Methods of detection, Mass Spectrometer. Accelerators. The phenomenon of fission; reactor and nuclear power, nuclear fusion and its application. Elementary particles and their properties.