Engineering Physics Syllabus

Engineering Physics Syllabus

1. Mechanics

   • Newton’s laws of motion
   • Work, energy, and power
   • Conservation laws
   • Rotational motion
   • Oscillations and waves

2. Electromagnetism

   • Electrostatics
   • Electric fields and potentials
   • Capacitance and dielectrics
   • Current electricity
   • Magnetic fields and forces
   • Electromagnetic induction
   • Maxwell’s equations

3. Optics

   • Wave optics
   • Interference and diffraction
   • Polarization
   • Optical instruments
   • Lasers and their applications

4. Thermodynamics

   • Laws of thermodynamics
   • Heat engines and refrigerators
   • Entropy and free energy
   • Kinetic theory of gases

5. Quantum Mechanics

   • Wave-particle duality
   • Schrödinger equation
   • Quantum states and operators
   • Applications to atomic and molecular systems

6. Solid State Physics

   • Crystal structure
   • Band theory of solids
   • Semiconductors
   • Superconductivity

7. Modern Physics

   • Relativity
   • Nuclear physics
   • Particle physics
   • Cosmology

8. Practical Applications

   • Laboratory experiments
   • Computational physics
   • Engineering applications of physics principles