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Session: 2020-2021
Name of College: School of Applied and Life Sciences (SALS)
Name of Department: Physics
Program Name: M.Sc. Physics
Program Code: 31
Program Educational Objectives- PEO, Program Specific Outcomes- PSO, Program Outcomes-PO, Course Outcomes-CO
Program Educational Objectives (PEO)
PEO-1 Post-Graduates will have a quality education with theoretical and experimental knowledge of Physics to enrich towards higher learning.
PEO-2Post-Graduates will have an exposure of learning through educational visit, interaction with renowned personals through guest lectures, seminar, workshop and conferences.
PEO-3Post-Graduates will have an exposure of model making which in turn creates confidence, make them technically sound, self-disciplined, socially, and environmentally concerned.
PEO-4 Exposure to different scientific instruments and, techniques, and also of different software, enable post-graduates to utilize them in research-based work.
PEO-5 Exposes to personality development, quantitative and counselling sessions are possible sources for carrier options and employability.
Program Outcomes-(PO)
PO-1 Apply the advanced knowledge gained through the various domains of Physics in solving basic and advance problems
PO-2 Identify and analyze the problem related to allied fields with the help of computational/ analytical/statistical techniques.
PO-3 Develop strong practical, analytical and mathematical skills and ability to solve scientific problems.
PO-4 Capability in organizing and presenting the acquired knowledge coherently both in oral and written discourse.
PO-5 Develop small projects and enhance confidence by presentation.
PO-6Apply research-based knowledge and methods including design of experiments, analysis and interpretation of data to conduct research related to fundamental and application aspects.
PO-7Postgraduates will have motivation to-opt M.Tech, Ph.D. in Physics, and will be able to apply for Scientific and academic Institutions, and civil services examinations, etc
Program Specific Outcomes (PSO)
PSO-1 Acquire a comprehensive knowledge and sound understanding of the fundamentals and advancement in the Physics
PSO-2 Acquire a range of quantitative skills and knowledge of different computer applications/ programmes, helpful for mathematical and scientific problems.
PSO-3 Acquire presentation skills and confidence while working individually and as a team by participation in seminar and other group activities
PSO-4Develop skills and knowledge in conducting research on fundamental and application aspects of physics at higher degree and also they must be well qualified to obtain employment in different R & D and scientific industries
Semester- ICourse Name: Mathematical Physics Course Code (CC): TMPH- 101TMPH-101- CO- 1 Determine the numerical solutions of algebraic equations.TMPH-101- CO- 2 Evaluate complex Algebra and complex integration.TMPH-101- CO- 3 Analyze the Matrices and Tensor algebra.TMPH-101- CO- 4 Estimate problems by using curve fitting methods
Semester- ICourse Name: Classical Mechanics Course Code (CC): TMPH- 102TMPH-102- CO- 1 Apply Lagrangian and Hamiltonian formulation to find the equation of
motionTMPH-102- CO- 2 Solve Poisson bracket and small oscillation problemTMPH-102- CO- 3 Define the classification of orbits and able to solve central force problems.TMPH-102- CO- 4 Interpret the dynamics of a rigid body
Semester- ICourse Name: E. M. Theory & Electrodynamics Course Code (CC): TMPH-103TMPH-103- CO- 1 Illustrate the static properties of electrical charge.TMPH-103- CO- 2 Explain Magnetostatics and fields in matterTMPH-103- CO- 3 Evaluate equations and gauge transformations.TMPH-103- CO- 4 Assess properties of electromagnetic waves in different medium
Semester- ICourse Name: Electronics-I Course Code (CC): TMPH-104TMPH-104- CO- 1 Appraise about Semiconductor materials and its propertiesTMPH-104- CO- 2 Define linear wave shaping and circuit theorems. TMPH-104- CO- 3 Illustrate bipolar junction and field effect transistor.TMPH-104- CO- 4 Develop the concept of multivibrators
Semester- ICourse Name: Fundamentals of Computer Science and Programming Course Code (CC): TMPH-105TMPH-105- CO- 1 Define hardware and software of computers.TMPH-105- CO- 2 Ability to write computer code in FORTRAN programming language.TMPH-105- CO- 3 Apply statistics in computer language.TMPH-105- CO- 4 Adapt to work on MATLAB
Semester- ICourse Name: Course-I (General Lab)Course Code (CC): PMPH- 151PMPH-151- CO- 1 Interpret the variation of magnetic field and Hall Effect.PMPH-151- CO- 2 Illustrate the characteristic of polarization and optoelectronic devices.PMPH-151- CO- 3 Determine the energy band gap of semiconductor materialPMPH-151- CO- 4 Appraise about the Stefan’s law and Plank constant.
Semester- ICourse Name: Lab Course-II (Electronics-I Lab) Course Code (CC): PMPH- 152PMPH-152- CO- 1 Familiarize with various electronics componentsPMPH-152- CO- 2 Experiment with PN junction diode, Zener diode and tunnel diode
characteristics.PMPH-152- CO- 3 Elaborate half wave and full wave rectifier circuit.PMPH-152- CO- 4 Appraise about the family of logic gates and BJT’s
Semester- ICourse Name: Fundamentals of Computer Science and Programming Lab Course Code (CC): PMPH-153PMPH-153- CO- 1 Identify the different types of operating system and their functions. This
will be used in skill development.PMPH-153- CO- 2 Demonstrate and understanding the matrix operations through MATLABPMPH-153- CO- 3 Programming writing skill for the execution of mathematical series.PMPH-153- CO- 4 Programming writing skill for the execution of different mathematical
operations
Semester- IICourse Name: Solid State Physics Course Code (CC): TMPH-201TMPH-201- CO- 1 Understand the concept of crystal structure and will also learn different
types of crystal structure detection techniques.TMPH-201- CO- 2 Explain different types of bonding among crystals and determination of
elastic constant.TMPH-201- CO- 3 Appraise about the concept of phonons and vibration in lattice.TMPH-201- CO- 4 Identify defects in crystal.
Semester- IICourse Name: Statistical Mechanics Course Code (CC): TMPH-202TMPH-202- CO- 1 Developing concept of micro& macrostates along with the basics of
classical statistical mechanicsTMPH-202- CO- 2 Conceptualize the quantum statistical mechanics and its difference from
classical part.TMPH-202- CO- 3 Quantify the ideal Bose and Fermi systems.TMPH-202- CO- 4 Appraise about Phase transition and atomic spectroscopy
Semester- IICourse Name: Quantum Mechanics Course Code (CC): TMPH-203TMPH-203- CO- 1 Inspect about quantum mechanics and classical mechanics.TMPH-203- CO- 2 Conceptualize Schrodinger equations and their applications to different
realistic problems. TMPH-203- CO- 3 Develop idea of matrix formulation of quantum mechanics. TMPH-203- CO- 4 Interpret angular momentum both spin and orbital.
Semester- IICourse Name: Electronics-II Course Code (CC): TMPH-204TMPH-204- CO- 1 Develop concept about different types of power amplifier.TMPH-204- CO- 2 Familiarize with feed back in amplifiers and multivibrators.TMPH-204- CO- 3 Develop concept about amplifiers.TMPH-204- CO- 4 Familiarize with the different components of optoelectronics.
Semester- IICourse Name: Lab Course-I (General Lab) Course Code (CC): PMPH-251PMPH-251- CO- 1 Construct BH curve and evaluate energy loss of different ferromagnetic
samplesPMPH-251- CO- 2 Demonstrate single phase half wave-controlled rectifier with Resistive
load.
PMPH-251- CO- 3 Design the field effect transistor, SCR & UJT.PMPH-251- CO- 4 Determine the Dielectric Constant of a Dielectric Materials
Semester- IICourse Name: Course-II (Electronics-II Lab) Course Code (CC): PMPH-252PMPH-252- CO- 1 Appraise about single/two stage transistor amplifier. PMPH-252- CO- 2 Interpret Wein-bridge oscillator and phase shift oscillator.PMPH-252- CO- 3 Demonstrate operational amplifier as substractor, adder, integrator and
differentiator.PMPH-252- CO- 4 Determine Light emitting diode characteristics & LASER’s.
Semester- IICourse Name: Minor Project/Seminar PresentationCourse Code (CC): PMPH-253PMPH-253- CO- 1 Enhance presentation skills in a creative manner.PMPH-253- CO- 2 Exhibit improved thinking skills to build innovate new products.PMPH-253- CO- 3 Assess qualities like perseverance, curiosity and self-confidence.PMPH-253- CO- 4 Grade up their problem-solving ability.
Semester- IIICourse Name: Advanced Quantum Mechanics Course Code (CC): TMPH-301TMPH-301- CO- 1 Develop concept of approximation methods for bound state problems in
time dependent and time independent quantum mechanical systems.TMPH-301- CO- 2 Interpret scattering theory and be able to solve different quantum
mechanical problems using, Born approximation.TMPH-301- CO- 3 Analyze relativistic quantum mechanics and its application in free space
as well as bound state.TMPH-301- CO- 4 Examine Hamiltonian and evaluation of Dirac equation for spin half
particle.
Semester- IIICourse Name: Atomic & Molecular Physics Course Code (CC): TMPH-302TMPH-302- CO- 1 Develop the concept spin by different mechanisms of atomic
spectroscopy. TMPH-302- CO- 2 Conceptualize different coupling schemes about orbital and spin angular
momentumTMPH-302- CO- 3 Quantify the energy and frequency of molecular and electronic
spectroscopy.TMPH-302- CO- 4 Calculate molecular binding energy by variation method.
Semester- IIICourse Name: Nuclear & Particle Physics Course Code (CC): TMPH-303TMPH-303- CO- 1 Appraise about nuclear size and different nuclear models with the help of
binding energy.TMPH-303- CO- 2 Conceptualize different nuclear detectors and their application. TMPH-303- CO- 3 Familiarize about radioactive decay of elementary particles. TMPH-303- CO- 4 Appraise about different nuclear reactions, their Q values and application.
Semester- IIICourse Name: Laser PhysicsCourse Code (CC): TMPH-304 ATMPH-304A- CO- 1 Develop concepts regarding basic principles, properties and mechanisms
of lasers.TMPH-304A- CO- 2 Classify different types of laser and their specific uses.TMPH-304A- CO- 3 Understand the concept of nonlinear optics and its contribution to laser.TMPH-304A- CO- 4 Familiarize with laser spectroscopy and holography.TMPH-304A- CO- 5 Conceptualize waveguide, optical fiber and guided modes in optical
fiber.
Semester- III
Course Name: Renewable Energy SourcesCourse Code (CC): TMPH-304 BTMPH-304B- CO- 1 Develop concepts of renewable energy and its applications.TMPH-304B- CO- 2 To understand renewable energy generation and storage.TMPH-304B- CO- 3 Conceptualize the fundamental understanding of solar energy and its
applications.TMPH-304B- CO- 4 Familiarize with wind energy and hydropower.
Semester- IIICourse Name: Physics of devices and Instrumentation Course Code (CC): TMPH-304CTMPH-304C- CO- 1 Acquire knowledge about semiconductor devices, power supply and
filters.TMPH-304C- CO- 2 Elucidate different multivibrator.TMPH-304C- CO- 3 Acquire knowledge about communication system and its elements.TMPH-304C- CO- 4 Understand the basic of transducers
Semester- IIICourse Name: Optoelectronics Course Code (CC): TMPH-304DTMPH-304D- CO- 1 Develop basic concept of semiconductor and their applications in
different devices.TMPH-304D- CO- 2 Learn different optical modulation techniques. TMPH-304D- CO- 3 Acquire knowledge about Display devices.TMPH-304D- CO- 4 Learn about optoelectronic and thermal detectors.TMPH-304D- CO- 5 Acquire knowledge about optical fiber and their characteristics
Semester- IIICourse Name: Lab Course-I (Laser Physics)Course Code (CC): PMPH-304APMPH-304A- CO- 1 Determination of the wavelength of light using diffraction of single and
double slit.PMPH-304A- CO- 2 Evaluate the refractive index of the given Liquids /materials using Laser
light.PMPH-304A- CO- 3 Conceptualizethe interference property of light and measure the distance
between two slits.PMPH-304A- CO- 4 Determine attenuation, beam divergence and polarization through Laser.
Semester- IIICourse Name: Lab Course-I (Renewable Energy Sources Lab) Course Code (CC): PMPH-304BPMPH-304B- CO- 1 Conceptualize the heat exchangers, and variable speed drivers.PMPH-304B- CO- 2 Evaluate the performance of air compressors.PMPH-304B- CO- 3 Conceptualize fundamentals of DC/AC inverter working.
PMPH-304B- CO- 4 Determine the I-V characteristics of solar cells.
Semester- IIICourse Name: Lab Course-I (Physics Of Devices And Instrumentation Lab) Course Code (CC): PMPH-304CPMPH-304C- CO- 1 Design various power supply and different filter circuit.PMPH-304C- CO- 2 Devise different modulator circuits using transistors and IC’sPMPH-304C- CO- 3 Inspect thermistors, LDR and strain gauge based devices.PMPH-304C- CO- 4 Design amplifiers and learn its frequency response
Semester- IIICourse Name: Lab Course-I (Optoelectronics Lab)Course Code (CC): PMPH-304DPMPH-304D- CO- 1 Demonstrate different types of Opto-electronic devices.PMPH-304D- CO- 2 Study solar cell, photodiode, photo transistor and LDR.PMPH-304D- CO- 3 Interpret about the uses of optical fiber in digital and analog
communication.PMPH-304D- CO- 4 Learn about the properties of optical fibers.
Semester- IIICourse Name: Lab Course-II (General Lab) Course Code (CC): PMPH-351PMPH-351- CO- 1 Interpret Michelson Interferometer and diffraction grating experimentsPMPH-351- CO- 2 Determine dielectric constant and Stefan-Boltzman constants.PMPH-351- CO- 3 Demonstrate the ratio of electric charge and the mass of the electron. PMPH-351- CO- 4 Determine temperature constant and also study boiling phenomenon.
Semester- IIICourse Name: Minor Project/ Seminar Presentation Course Code (CC): PMPH-352PMPH-352- CO- 1 Enhance presentation skills in a creative manner.PMPH-352- CO- 2 Exhibit improved thinking skills to build innovate new products.PMPH-352- CO- 3 Assess qualities like perseverance, curiosity and self-confidence.PMPH-352- CO- 4 Grade up their problem-solving ability.
Semester- IIICourse Name: Condensed Matter Physics-A Course Code (CC): TMPH-401ATMPH-401A- CO- 1 Ability to differentiate between different types of defects in solids.TMPH-401A- CO- 2 Develop knowledge regarding various types of magnetic phenomenon.TMPH-401A- CO- 3 Explain the concept of origin of energy bands and its applications.TMPH-401A- CO- 4 Illustrate the dielectric and electric properties of insulators.
Semester- IV
Course Name: Communication ElectronicsCourse Code (CC): TMPH-401BTMPH-401B- CO- 1 Ability to differentiate between different modulations.TMPH-401B- CO- 2 Develop knowledge regarding transmission lines. TMPH-401B- CO- 3 Explain the concept of working of television system and radar system.TMPH-401B- CO- 4 Illustrate the dielectric and electric properties of insulators.
Semester- IVCourse Name: Material Science & Nanotechnology-A Course Code (CC): TMPH-401CTMPH-401C- CO- 1 Develop knowledge regarding different properties of metals and
ceramics. TMPH-401C- CO- 2 Explain the concept of composite materials, formation, and applications.TMPH-401C- CO- 3 Ability to understand the polymers fundamentals, classification of
polymers and characteristics.TMPH-401C- CO- 4 Illustrate the various techniques of nanomaterials synthesis.
Semester- IVCourse Name: Condensed Matter Physics - A Course Code (CC): PMPH-401APMPH-401A- CO- 1 Appraise about X-ray diffraction method.PMPH-401A- CO- 2 Interpret Lande g factor using the Electric Spin Resonance spectrum. PMPH-401A- CO- 3 Demonstrate dielectric constant and permeability of different samples.PMPH-401A- CO- 4 Determine the Curie temperature of given sample.PMPH-401A- CO- 5 Determine the elastic constant of crystal by optical method
Semester- IVCourse Name: Communication Electronics Lab Course Code (CC): PMPH-401BPMPH-401B- CO- 1 Appraise about DSB/SSB modulation.PMPH-401B- CO- 2 Interpret frequency modulation and modulation factor. PMPH-401B- CO- 3 Determine the characteristics of long transmission line. PMPH-401B- CO- 4 Determine the characteristics of PAM signal and F.M. radio receiver.
Semester- IVCourse Name: Material Science & Nanotechnology-A LabCourse Code (CC): PMPH-401CPMPH-401C- CO- 1 Appraise about different techniques of nanomaterials synthesis.PMPH-401C- CO- 2 Characterize the Polyaniline and Polypyrole by FTIR and UV
spectroscopy. PMPH-401C- CO- 3 Synthesis of composite materials.PMPH-401C- CO- 4 Interpret thermal behavior of PANI and PANI composites by TGA.
Semester- IV
Course Name: Condensed Matter Physics- B Course Code (CC): TMPH 402 ATMPH-402A- CO- 1 Articulate one dimensional free electron case and Energy bands in one
dimension by different methods.TMPH-402A- CO- 2 Explain the origin of dia, Para-, and Ferro-magnetic properties of solids
along with dielectric properties exhibited by solids, the concept of polarizability and phase transition.
TMPH-402A- CO- 3 Elaborate superconductivity, Type-I and Type-II superconductors, Thermodynamics of Superconducting transition and build the concepts of Critical fields and Critical currents.
TMPH-402A- CO- 4 Interpret Transport properties and magnetic resonance and Experimental determination of Hall coefficient.
Semester- IVCourse Name: Digital Electronics & Microprocessors Course Code (CC): TMPH 402 BTMPH-402B- CO- 1 Articulate the various number system and fundamental logic gates. TMPH-402B- CO- 2 Explain the concept of MOS digital systems and their applications. TMPH-402B- CO- 3 Elaborate RAM organization, write/read operations, MOS capacitor and
thin film technology. TMPH-402B- CO- 4 Interpret the microprocessor technology, memory interfacing and
microprocessor applications.
Semester- IVCourse Name: Materials Science & Nanotechnology-B Course Code (CC): TMPH 402 CTMPH-402C- CO- 1 Articulate the nano science and nanotechnology. TMPH-402C- CO- 2 Explain the concept of bulk and nanomaterials. TMPH-402C- CO- 3 Elaborate Bio-physics; Bio-technology, Biopolymers, Biodegradable
polymers and drug delivery system.TMPH-402C- CO- 4 Interpret Self-assembly of nanostructures, Core-shell nanostructures
Semester- IVCourse Name: Digital Electronics and Microprocessors Lab Course Code (CC): PMPH- 402BPMPH-402B- CO- 1 Appraise about fundamentals of basic memory units and to become
familiar with various types of flip-flops PMPH-402B- CO- 2 To study BCD to binary decoder and encoder PMPH-402B- CO- 3 To design and construct Half/Full adder and subtractor circuits PMPH-402B- CO- 4 To perform various mathematical, logical operations and jump
operations for 16 bit numbers using 8085 microprocessor PMPH-402B- CO- 5 To design and study various synchronous counters using J-K flip-flops.
Semester- IV
Course Name: Materials Science & Nanotechnology-B Lab Course Code (CC): PMPH- 402CPMPH-402C- CO- 1 Appraise about fundamentals of various thin film deposition techniques. PMPH-402C- CO- 2 To determine the particle size of nanomaterial from X-ray diffraction. PMPH-402C- CO- 3 To study optical properties of nanomaterials. PMPH-402C- CO- 4 Analyze the electrical properties of nanostructured materials.PMPH-402C- CO- 5 To synthesize metal oxide nanomaterials and study their
thermoluminescence properties.
Semester- IVCourse Name: Project (Dissertation) Course Code (CC): DMPH 451DMPH-451- CO- 1 Develop understanding of research methodology related to fundamental
and applied aspects of physicsDMPH-451- CO- 2 Development of perseverance, curiosity, self-confidence, presentation
skills, problem thinking and solving ability.DMPH-451- CO- 3 Enhance experimental, analytical and interpretation skills.DMPH-451- CO- 4 Use scientific tools to handle social, environment and sustainability issuesDMPH-451- CO- 5 Acquainted with ethical practices in acknowledging other sources.