PH8201 – PHYSICS FOR CIVIL ENGINEERING (CIVIL)
- Lecture -1: Thermal performance of buildings & Mode of heat transfer
- Lecture -2: Fenestration & Heat transfer through fenestration
- Lecture -3: Affecting factor of Thermal performance of buildings
- Lecture -4: Thermal comfort and indices of Thermal comfort
- Lecture -5: Thermal insulation and methods of thermal insulation
- Lecture -6: Ventilations and its measurement
- Lecture -7: Air-conditioning and Different types of Air-conditioning
- Lecture -8: Window type Air conditioning
- Lecture-9: Central heating System
- Lecture 10: Ceramics
- Lecture 11: Classification of Ceramics
- Lecture 12: Ceramic manufacturing methods
PH8253 – PHYSICS FOR ELECTRONICS ENGINEERING (ECE, EEE & BIOMEDICAL) &
PH8252- PHYSICS FOR INFORMATION SCIENCE (CSE)
- Lecture – 1: Magnetic materials
- Lecture – 2: Fundamental terms in Magnetic materials
- Lecture – 3: Classification of magnetic materials
- Lecture – 4: Origin of magnetic moment & Bohr magneton
- Lecture – 5: Ferrimagnetic materials and Ferrites structure
- Lecture – 6: Domain theory of Ferromagnetic materials
- Lecture – 7: Quantum dot Laser
- Lecture – 8: Carbon nanotubes (CNTs)
- Lecture- 9: Density of states in quantum well, quantum wire and quantum dot structures
- Lecture -10: Coulomb blockade effects
- Lecture -11: Single Electron Transistor
PH8251 – MATERIAL SCIENCE (MECHANICAL & AUTO)
- Lecture – 1: Fatigue
- Lecture – 2: Brinell Hardness test
- Lecture – 3: Vicker Hardness test
- Lecture – 4: Rockwell Hardness test
- Lecture – 5: Knoop Hardness test
- Lecture – 6: Facture
- Lecture -7: Creep
- Lecture- 8: Tensile test
H8253 – PHYSICS FOR ELECTRONICS ENGINEERING (ECE, EEE & BIOMEDICAL)
- Lecture -1: Dielectric Materials
- Lecture -2: Electronic Polarization
- Lecture -3: Ionic Polarization
- Lecture -4: Orientational and Space charge Polarization & Total Polarization
- Lecture – 5: Internal or Local field and Clausius-Mosotti Relation
- Lecture -6: Dielectric Loss
- Lecture -7: Dielectric breakdown
- Lecture -8: Zener block oscillation
- Lecture -9: Magnetic Semiconductors
- Lecture -10: Spintronics
- Lecture -11: Mesoscopic structures: Conductance fluctuations and coherent transport