Available courses

COURSE CODE

HOURS

PER WEEK

SEMESTER : V

COURSE CODE: 5B07 PHY

CREDIT: 4

EXAM: 3 HRS

COURSE OUTCOME

CO1: Understand the concept of Electric field, electric potential, magnetic field and

magnetic potentials

CO2: Use the principle of superposition and law of Gauss to calculate electric field

Intensity

CO3: Determine Electric potential of charge distributions and hence specify electric

field intensity

CO4: Understand the basic properties of conductors and capacitors

CO5: Calculate the magnetic fields due to currents using Biot-Savart and Ampere laws.

CO6: Compare Magnetostatics and Electrostatics.

CO7: Understand Diamagnets, Paramagnets and Ferro magnets

CORE COURSE VI: QUANTUM MECHANICS

SEMESTER: V

COURSE CODE: 5B06PHY

HOURS PER WEEK: 4

CREDIT: 4

EXAM:  3 HRS

COURSE OUTCOME

CO 1: Understand the limitations of classical mechanics

CO2: Explain Blackbody radiation problem, Photoelectric effect and Compton

Effect using quantum theory of radiation

CO3: Understand Rutherford,Bohr atom models and concept of energy and angular  momentum 

quantisation

CO4: Understand de-Broglie hypothesis, the concept of wave nature of matter and Heisenberg uncertainty principle

CO5: Determine the probability of finding a particle and expectation values of variable

 using its wave function

CO6: Write and solve Schrodinger equation for simple quantum mechanical

systems

CO7: State and explain Pauli’s exclusion principle