Bsc 2nd Year Physics Syllabus 2023-2024 Session

Today we will discuss the bsc 2nd year physics syllabus 2023-2024 session for the upcoming examination. 

This syllabus is common. 

For those students who want to know about the BSc physics second year subjects, this will be helpful to them. 

Every university has its own syllabus. 

If they do the modification in the syllabus then they release the new physics syllabus for bsc 2nd year students. 

You have to focus on your own university syllabus for exam preparation. 

You can use this 2nd year physics syllabus to prepare the notes for upcoming exams. 

If your university releases the new syllabus with modifications, just filter that from this and add the skipped topic. 

BSc 2nd year physics syllabus 2023 and 2024 have no big difference. 

Here we mentioned the bsc 2nd year physics 1st paper syllabus in detail as well as added bsc 2nd year physics 2nd paper syllabus. 

You will not move anywhere else for better information on BSc second year physics syllabus. 

Basically, a syllabus plays a vital role in any kind of education or training. 

The syllabus presentation prescribed subjects, sub-topics, and other related material in a systematic form. 

As you know that syllabus or curriculum is usually determined by an education council or made by a professor. 

They were responsible for the quality of teaching of that subject. 

Let's start.

Physics Bsc 2nd Year Syllabus

Bsc 2nd Year Physics 1st Paper Syllabus

Paper-1 Optics

Unit-1 Geometrical Optics & Waves 

  • Reflection and Refraction, Fermat's principle, Refraction on a spherical surface, A planetary point and applications, Lens formula, Combination of thin lenses and Equivalent focal length. Deflection and deflection ability, color aberration, and achromatic combination. Different types of aberrations (qualitative) and their solutions need multiple lens systems in the eyepiece. Ramsden and Hygan Eyepieces. Simple harmonic motion, damped oscillation, propulsive oscillation and resonance, pulsation. Progressive waves, pulses, and wave packets in a stretched string, phase and group velocities, reflection, and refraction by Hygan's principle

Unit-2 Interference Of Light

  • Theory of superposition, double-slit interference, the need of art relation of sources, retardation of the optical path, lateral displacement of fringes, localized fringes, thin film, interference from the film made of two parallel reflective surfaces, Newton ring. Heidinger fringes (fringes of equal inclination), Michelson interferometer, using it to determine the wavelength of light, the difference between two very close wavelengths, and the width of the spectral line. Distribution of intensity in multiple beam interference, Fabry Paro interference meter, and Italian.

Unit-3 Diffraction

  • Fresnel and Fraunhofer diffraction: semi-periodic zone, zone plate. Diffraction on a straight edge, straight line movement. Diffraction diagram at single slit and integration methods, Diffraction at the circular aperture, Rayleigh criterion for resolution of images. The sensing ability of telescope and microscope. N diffraction on parallel slits, intensity description, plane diffraction grating | Resolving power of grating.

Unit-4 Polarization

  • Transverse nature of the light wave, the polarization of electromagnetic wave, plane polarized light - production and analysis. Description of linear, circular, and ellipsoidal polarities. Transmission of the electromagnetic wave in the non-coherent medium, Uni-axial and bi-axial crystals, Symmetrical nature of dielectric tensor, Bi-refraction, Huygens principle, Ordinary and extraordinary spectra, Fresnel's formula, Light propagation in a uniaxial crystal, Nickel itself Production and analysis of leaf and ellipsoidal light, Bebinet operator and application, its measurement with an optical and polarimeter.

Unit-5 Fiber Optics and Laser

  • Principle of Fire Optics, Attenuation, Pulse Diffusion, and Step Index, Parabolic Index Fire, Brief History of Laser, Characteristic Properties of Laser Light, Einstein's Concept, Relationship between Einstein Coefficients (Qualitative Discussion), Pumping Systems, Resonators, Ruby Laser, Helium-Neon laser, uses of laser, the principle of holography. The photodiode, phototransistor, and photomultiplier.

Bsc 2nd Year Physics 2nd Paper Syllabus (Bsc Second Year Physics Syllabus)

Paper-2 Electrostatics, Electromagnetism, Electric Current and Bio-current (Electrostatics, Magneto And Electrodynamics)

Unit-1 Electrostatics

  • Fundamentals of electrostatics, Gauss's law and its use in the calculation of E for symmetric charge distribution. A capacitor, a circular conductor in a uniform electric field, charges at the point opposite to an earthed infinity conductor. Dielectricity, Parallel plate capacitor in the presence of dielectric, Dielectric point, the relation between the poles and the poles P, displacement vectors D, P, and E, molecular explanation of the Clausius-Mossati equation. Laplace and Poisson's equations and their applications in electrostatics. The energy of a system of charges, Polymeric expansion of scalar potential, Method and application of images, Field intensity and potential due to an electric dipole, Force and force pair of electric dipole in an external electric field.

Unit-2 Magnetostatics
  • Force on a moving charge: Lorenz force equation and definition of F, force on placing a straight current carrying conductor in a magnetic field, torque on a current loop, magnetic moment, angular momentum and gyromagnetic ratio, Biot-Sevart's law, simple geometric conditions In Calculation of H (Tunnel and Anchor Ring), Ampere's Circular Law, Bounded and Free Currents by Magnetic Dipole, Magnetization Vector Relations, Incorporation for Asymmetrically Magnetised Materials.

Unit-3 Current Electricity and Bio-Electricity
  • Constant current, Current density J, Temporary current equation and continuum equation, Kirchhoff's law and multiloop circuit analysis, Increase and decay of current in LR and CR circuits, Decay-constant, LCR circuit. Mean and square root values ​​of alternating current, AC circuits, complex numbers, and their applications to solve complex impedance, reactance, series, and parallel resonance in AC circuits. Q coefficient, power usage by AC circuit, power factor, Y and /_\ network, and transmission of electrical power. Observation of electricity in biological bodies, generation of bioelectricity.

Unit-4 Motion Of Charged Particles In Electric And Magnetic Fields
  • E as acceleration field, electron gun, immersion tube, linear accelerator, E: CRO as deflection field, the sensitivity of CRO. transverse B field; 1800 Deviation, Mass Spectrograph or Velocity Selector, Curvature of Particle Paths for Detection of Nuclear Particles, Principle and Working Method of Cyclotron (Measurement of Energy), Parallel and Vertical E and B Fields, Parabola of Positive-rays, Discovery of Isotopes, Mass Fundamentals of the spectrograph, the principle of magnetic focus (lens).

Unit-5 Electrodynamics
  • Electromagnetic Induction, Faraday's Law, Electromotive Force, Differential and Integral Forms of Faraday's Law, Self and Reciprocal Induction, Transformer, Energy in a Static Electric Field, Maxwell's Concept of Displacement Current Density, Establishment of Maxwell's Equations, Electromagnetic Field Energy wealth. Poynting vector, vector, and scalar potentials, electromagnetic field tensors, Fresnel relations, Rayleigh scattering, electromagnetic wave equations, plane electromagnetic waves in vacuum and dielectric medium, reflection from a plane surface of the dielectric, Fresnel's law, oscillations from reflection and Total internal reflection, wave in the conducting medium, reflection and refraction through the ionosphere.

We are providing a list of some recommended books for BSc physics students. 

These BSc 2nd-year physics books will help them to acquire good knowledge. 

You can purchase these 2nd year physics books from the market or online. 

We provided the BSc second year physics book with the author's name. 

Bsc Second Year Physics Book 2nd Year Physics Book Name

  • Fundamentals of Optics - F.A.Jenkins
  • Principal of Optics - BK Mathur
  • University Physics - F.W.SARS
  • Optics - AK Ghatak
  • Optics and Atomic Physics - DP Khandelwal
  • Ledger Theory and Applications - K.Thyagarajan and A.K.Ghatak
  • Introduction to Electrodynamics - DJ Griffiths
  • Electricity And Magnetism - SS Atwood Dover
  • Classical Mechanics - Herbert Goldstein & John R. Taylor
  • Electrodynamics - Amy Koser and Bassin Lorraine
  • Mechanics - Klepnner and Kolenkow

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