NAME OF THE PROGRAMME: II YEAR B.SC.-PHYSICS (IV SEMESTER)
NAME OF THE COURSE: COURSE-IV
ELECTRICITY, MAGNETISM AND ELECTRONICS
On successful completion of this course the student will be able to;
CO |
CO Description |
K Level |
CO 1 |
Understand the Gauss law and its application to obtain electric field in different cases and formulate the relationship between electric displacement vector, electric polarization, Susceptibility, Permittivity and Dielectric constant. |
Level 2 & 3 |
CO 2 |
Distinguish between the magnetic effect of electric current and electromagnetic induction and apply the related laws in appropriate circumstances. |
Level 3 |
CO 3 |
Understand Biot and Savart’s law and Ampere’s circuital law to describe and explain the generation of magnetic fields by electrical currents. |
Level 2 |
CO 4 |
Develop an understanding on the unification of electric and magnetic fields and Maxwell’s equations governing electromagnetic waves. |
Level 4 |
CO 5 |
Phenomenon of resonance in LCR AC-circuits, sharpness of resonance, Q- factor, Power factor and the comparative study of series and parallel resonant circuits. |
Level 2 |
CO 6 |
Describe the operation of p-n junction diodes, zener diodes, light emitting diodes and transistors |
Level 2 |
CO 7 |
Understand the operation of basic logic gates and universal gates and their truth tables. |
Level 2 |
NAME OF THE PROGRAMME: II YEAR B.SC.-PHYSICS (IV SEMESTER)
NAME OF THE COURSE: COURSE-V MODERN PHYSICS
On successful completion of this course the student will be able to;
CO |
CO Description |
K Level |
CO 1 |
Develop an understanding on the concepts of Atomic and Modern Physics, basic elementary quantum mechanics and nuclear physics |
Level 2 |
CO 2 |
Develop critical understanding of concept of Matter waves and Uncertainty principle. |
Level 3 |
CO 3 |
Get familiarized with the principles of quantum mechanics and the formulation of Schrodinger wave equation and its applications. |
Level 3 |
CO 4 |
Observe the variation of magnetic field along the axis of a circular coil carrying current using Stewart and Gee’s apparatus. |
Level 2 |
CO 5 |
Examine the basic properties of nuclei, characteristics of Nuclear forces, salient features of Nuclear models and different nuclear radiation detectors. |
Level 3 |
CO 6 |
Classify Elementary particles based on their mass, charge, spin, half life and interaction |
Level 3 |
CO 7 |
Get familiarized with the nano materials, their unique properties and applications |
Level 2 |
CO 8 |
Increase the awareness and appreciation of superconductors and their practical applications |
Level 3 |
Course Outcomes BSc Physics (mains)