Course Outcome

Course Outcome of BSc Physics

SEMESTER I

  •  Understand and apply the basic concepts of Newtonian Mechanics to Physical Systems
  • Understand and apply the basic idea of work-energy theorem to physical systems
  • Understand and apply the rotational dynamics of rigid bodies

SEMESTER II

  •  Understand the features of non-inertial systems and fictitious forces
  • Understand and analyze the features of central forces with respect to planetary forces
  • Understand the basic ideas of Harmonic Oscillations
  • Understand the analyze the basic concepts of wave motion

SEMESTER III

  • Understand and apply the fundamentals of vector calculus
  • Understand and analyze the electrostatic properties of physical systems
  • Understand the mechanism of electric field in matter.
  • Understand and analyze the magnetic properties of physical systems
  • Understand the mechanism of magnetic field in matter.

SEMESTER IV

  • Understand the basic concepts of electrodynamics
  • Understand and analyze the properties of electromagnetic waves
  • Understand the behavior of transient currents
  • Understand the basic aspects of ac circuits
  • Understand and apply electrical network theorems

SEMESTER V

  • Understand the Basics of Python programming
  • Understand the applications of Python modules
  • Understand the basic techniques of numerical analysis
  • Understand and apply computational techniques to physical problems

  • Understand the particle properties of electromagnetic radiation
  • Describe Rutherford – Bohr model of the atom
  • Understand the wavelike properties of particles
  • Understand and apply the Schrödinger equation to simple physical systems
  • Apply the principles of wave mechanics to the Hydrogen atom

  • Understand the fundamentals of Fermat’s principles and geometrical optics
  • Understand and apply the basic ideas of interference of light
  • Understand and apply the basic ideas of diffraction of light
  • Understand the basics ideas of polarization of light
  • Describe the basic principles of holography and fibre optics

  • Understand the basic principles of rectifiers and dc power supplies
  • Understand the principles of transistor
  • Understand the working and designing of transistor amplifiers and oscillators
  • Understand the basic operation of Op – Amp and its applications
  • Understand the basics of digital electronics

SEMESTER VI

  • Understand the zero and first laws of thermodynamics
  • Understand the thermodynamics description of the ideal gas
  • Understand the second law of thermodynamics and its applications
  • Understand the basic ideas of entropy
  • Understand the concepts of thermodynamic potentials and phase transitions

  • Understand the basic principles of statistical physics and its applications
  • Understand the basic aspects of crystallography in solid state physics
  • Understand the basic elements of spectroscopy
  • Understand the basics ideas of microwave and infra red spectroscopy
  • Understand the fundamental ideas of photonics

  • Understand the basic aspects of nuclear structure and fundamentals of radioactivity
  • Describe the different types of nuclear reactions and their applications
  • Understand the principle and working of particle detectors
  • Describe the principle and working of particle accelerators
  • Understand the basic principles of elementary particle physics

  • Understand the fundamental ideas of special relativity
  • Understand the basic concepts of general relativity and cosmology
  • Understand the basic techniques used in astronomy
  • Describe the evolution and death of stars
  • Describe the structure and classification of galaxies

  • Understand the elementary concepts of nanoscience
  • Understand the electrical transport mechanisms in nanostructures
  • Understand the applications of quantum mechanics in nanoscience
  • Understand the fabrication and characterization techniques of nanomaterials
  • Enumerate the different applications of nanotechnology

PRACTICALS AND PROJECT

  • Apply and illustrate the concepts of properties of matter through experiments
  • Apply and illustrate the concepts of electricity and magnetism through experiments
  • Apply and illustrate the concepts of optics through experiments
  • Apply and illustrate the principles of electronics through experiments

  • Apply and illustrate the concepts of properties of matter through experiments
  • Apply and illustrate the concepts of electricity and magnetism through experiments
  • Apply and illustrate the concepts of optics and spectroscopy through experiments
  • Apply and illustrate the principles of heat through experiments

  • Apply and illustrate the principles of semiconductor diode and transistor through  experiments
  • Apply and illustrate the principles of transistor amplifier and oscillator through experiments
  • Apply and illustrate the principles of digital electronics through experiments
  • Analyze and apply computational techniques in Python programming

  • Understand research methodology
  • Understand and formulate a research project
  • Design and implement a research project
  • Identify and enumerate the scope and limitations of a research project

DEPARTMENT OF PHYSICS

DEPARTMENTS