Course Objectives:
Engineering Physics Provide the concept and knowledge of physics with the emphasis of present-day application. The background of Physics corresponding to proficiency certificate level is assumed.
From Chapter 1 - 10 marks
From Chapter 2,3 - 5 marks
From Chapter 4- 15 marks
From Chapter 5 - 5 marks
From Chapter 6 - 5 marks
From Chapter 7,8 - 30 marks
From Chapter 9 - 5 marks
From Chapter 10 - 5 marks
From Chapter 2,3 - 5 marks
From Chapter 4- 15 marks
From Chapter 5 - 5 marks
From Chapter 6 - 5 marks
From Chapter 7,8 - 30 marks
From Chapter 9 - 5 marks
From Chapter 10 - 5 marks
Note:- These marks may be changed.
1) Oscillation ( 7 h | 10 Marks )
- Mechanical Oscillation
- Free oscillation
- Damped oscillation
- Forced mechanical oscillation
- EM Oscillation: Free, Damped and Forced Electromagnetics oscillation
2) Wave Motion ( 2 h | ~5 Marks )
- Waves and Particles
- Progressive wave
- Energy, power, and intensity of a progressive wave
3) Acoustics ( 3 h | ~5 Marks)
- Reverberation
- Sabine's Law
- Ultrasound and its application
4) Physical Optics ( 12 h | 15 Marks )
- Interference
- Diffraction
- Polarization
5) Geometrics Optics ( 3h | 5 Marks )
- Lenses, Combination of lenses
- Cardinal Point
- Chromatic aberration
6) Laser and Fiber Optics ( 4 h | 5 Marks)
- Laser Production
- Fiber Optics
7) Electrostatics ( 8 h | ~30 Marks )
- Electric charge and Force
- Electric field and potential
- Electrostatics potential energy
- Capacitor, Capacitor with dielectric
- Charging and discharging of a capacitor
8) Electromagnetism ( 11 h | ~30 )
- Direct Current
- Magnetic fields
9) Electromagnetic waves ( 5 h | 5 Marks)
- Maxwell's equation
- Wave equations, speed
- E and B fields
- Continuity equation
- Energy transfer
10) Photon and matter waves ( 5 h | 5 Marks )
- Quantization of energy
- Electrons and Matter waves
- Schrodinger wave equation
- Probability distribution
- One dimensional potential well
- Uncertainty principle
- Barrier tunneling
0 Comments