SEMESTER
&
CLASS |
COURSE CODE |
COURSE TITLE |
COURSE OUTCOME |
SEM 1
BSc Physics |
PHY1 B01: |
MECHANICS – 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
|
SEM2
BSc Physics |
PHY 2 B02: |
MECHANICS – 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 P
|
SEM3
BSc Physics |
PHY3B03: |
ELECTRODYNAMICS I |
- 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.
|
SEM4
BSc Physics |
PHY4B04: PHY4 B05 |
ELECTRODYNAMICS II
Core Course Practical V – Practical I |
- 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
- Apply and verify theoretical concepts through laboratory experiments
|
SEM5
BSc Physics |
PHY5B06: |
COMPUTATIONAL PHYSICS |
- 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
|
SEM 6
BSc Physics |
PHY5B07: |
QUANTUM MECHANICS |
- 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
|
SEM5
BSc Physics |
PH5B08: |
OPTICS |
- 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
|
| SEM5 |
PHY5B09: |
ELECTRONICS (ANALOG & DIGITAL) |
- 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
|
SEM 6
BSc Physics |
PHY6B10: |
THERMODYNAMICS |
- 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
|
SEM6
BSc Physics |
PHY6B11: |
STATISTICAL PHYSICS,
SOLID STATE PHYSICS,
SPECTROSCOPY & PHOTONICS |
- 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
|
SEM6
BSc Physics |
PHY6B12: |
NUCLEAR PHYSICS AND
PARTICLE PHYSICS |
- 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
|
SEM6
BSc Physics |
PHY6B13: |
RELATIVISTIC MECHANICS AND
ASTROPHYSICS |
- 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
|
SEM6
BSc Physics |
PHY6B14 (EL2): |
NANOSCIENCE AND TECHNOLOGY |
- 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
|
| |
PHY6 B15PHY6 B16PHY6 B17
(P/R) |
Practical XIV - Practical II Core Course Practical XV-
Practical III Core Course XVII
Project/Research methodology |
- Apply and verify theoretical concepts through laboratory experiments
|
Sem1
BSc Mathematics |
PHY1C01 |
Complementary Course I:
Properties of matter and
Thermodynamics PHYSICS Practical |
- Understand the theoretical basis of young’s modulus, cantilever, elasticity etc.
- Apply and verify theoretical concepts through laboratory experiments
|
Sem2
BSc Mathematics |
PHY2C02
- |
Complementary Course II:
Optics, Laser, Electronics PHYSICS Practical |
- Understand the concepts of optics, spectroscopy, electronics
- Apply and verify theoretical concepts through laboratory experiments
|
Sem3
BSc Mathematics |
PHY3C03 |
Complementary Course III:
Mechanics, Relativity, Waves
and Oscillations
PHYSICS Practical |
- Understand the various aspects of mechanics, relativity . waves and oscillations
- Apply and verify theoretical concepts through laboratory experiments
|
Sem4
BSc Mathematics |
PHY4C04 |
Complementary Course IV:
Electricity, Magnetism and
Nuclear Physics
Complementary Course V:
PHYSICS Practical |
- Understand concepts of electricity, magnetism and nuclear physics
- Apply and verify theoretical concepts through laboratory experiments
|