B.P. PODDAR INSTITUTE OF MANAGEMENT AND TECHNOLOGY COURSE INFORMATION PROGRAM: B.TECH IN CSE (A) ACADEMIC YEAR: COURSE OUTCOMES
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1 B.P. PODDAR INSTITUTE OF MANAGEMENT AND TECHNOLOGY ACADEMIC YEAR: ODD SEMESTER COURSE INFORMATION PROGRAM: B.TECH IN CSE (A) ACADEMIC YEAR: SEMESTER: ODD PAPER NAME: PHYSICS-II YEAR: 2 ND PAPER CODE: PH-301 CONTACT HOURS: 3L+1T CREDIT: 4 COURSE OUTCOMES CO S CO1 (PH301.1) CO2(PH301.2) CO3(PH301.3) CO4(PH301.4) CO5(PH301.5) CO6(PH301.6) STATEMENT OF COURSE OUTCOMES Solve numerical problems of vector calculus and Electrostatics. Analyze fundamentals of Magnetostatics and dielectrics Apprehend propagation of electromagnetic wave in media Interpret one dimensional and three dimensional quantum mechanical potential well problems. Work out simple problems of Classical mechanics Explain the macroscopic behavior of systems through M-B, F-D and B-E statistics
2 CO-PO-PSO MAPPING PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 PSO1 PSO2 PH PH PH PH PH PH PH PH CO S PH301.1 PH301.2 PH301.3 PH301.4 PH301.5 PH301.6 STATEMENT OF COURSE OUTCOMES Solve numerical problems of vector calculus and Electrostatics. Analyze fundamentals of Magnetostatics and dielectrics Apprehend propagation of electromagnetic wave in media Interpret one dimensional and three dimensional quantum mechanical potential well problems. Work out simple problems of Classical mechanics Explain the macroscopic behavior of systems through M-B, F-D and B-E statistics PO mapping PSO mapping Bloom s Level Bloom s Level PO1, PO2, PO12 PSO1 Apply L3 PO1, PO2, PO12 PSO1 Analyze L4 PO1, PO2, PO12 PSO1 Understand L2 PO1, PO2, PO12 PSO1 Apply L3 PO1, PO2, PO12 PSO1 Apply L3 PO1, PO2, PO12 PSO1 Analyze L4
3 SYLLABUS COURSE: Physics-II COURSE CODE: PH-301 CONTACT HOURS: 3 L+1T hours/week. CREDITS: 4 UNIT-I Vector Calculus 1.1 Physical significances of grad, div, curl. Line integral, Surface integral, volume integral - physical examples in the context of electricity and magnetism and statements of Stokes theorem and Gauss theorem [No Proof]. Expression of grad, div, curl and Laplacian in Spherical and Cylindrical co-ordinates. 2L UNIT-II Electricity 2.1 Coulomb's law in vector form. Electrostatic field and its curl. Gauss's law in integral form and conversion to differential form, Electrostatic potential and field, Poisson's Eqn (Application to Cartesian, Spherically and Cylindrically symmetric systems - effective 1D problem) Electric current, drift current, drift velocity, current density, continuity equation, steady current. 2.2 Dielectrics-concept of polarization, the relation D=e0E+P, Polarizabilty, Electronic polarization and polarization in monatomic and polyatomic gases. 8L UNIT-III Magnetostatics & Time Varying Field 3. Lorentz force, force on a small current element placed in a magnetic field. Biot-Savart law and its applications, divergence of magnetic field, vector potential, Ampere s law in integral form and conversion to differential form. Faraday s law of electro-magnetic induction in integral form and conversion to differential form. 3L UNIT-IV Electromagnetic Theory 4.1 Concept of displacement current Maxwell s field equations, Maxwell s wave equation and its solution for free space. E.M. wave in a charge free conducting media, Skin depth, physical significance of Skin Depth, E.M. energy flow, & Poynting Vector. 6L UNIT-V Classical and Quantum Mechanics 5.1 Generalized coordinates, Lagrange s Equation of motion and Lagrangian, generalized force potential, momenta and energy. Hamilton s Equation of motion and Hamiltonian. Properties of Hamilton and Hamilton s equation of motion. Course should be discussed along with physical problems of 1-D motion. 4L UNIT-VI 5.2 Concept of probability and probability density, operators, commutator. Formulation of quantum mechanics and Basic postulates, Operator correspondence, Time dependent Schrodinger s equation, formulation of time independent Schrodinger s equation by method of separation of variables, Physical interpretation of wave function ψ (normalization and probability interpretation), Expectation values, Application of Schrodinger equation Particle in an infinite square well potential (1-D and 3-D potential well), Discussion on degenerate levels. 9L UNIT-VII Statistical Mechanics: 6.1 Concept of energy levels and energy states. Microstates, macrostates and thermodynamic probability, equilibrium macrostate. MB, FD, BE statistics (No deduction necessary), fermions, bosons (definitions in terms of spin, examples), physical significance and application, classical limits of quantum statistics Fermi distribution at zero & non-zero temperature, Calculation of Fermi level in metals, also total energy at absolute zero of temperature and total number of particles, Bose-Einstein statistics Planck s law of blackbody radiation. 7L
4 GAP WITHIN SYLLABUS SL. NO. DESCRIPTION 1. Application of Probability & Combination in Quantum and Statistical mechanics CO PO PSO mapping CO4, CO6 PO1, PO2, PSO1 PROPOSED ACTION Topic to be covered with syllabus and to be addressed by an internal faculty member from Physics division GAP BEYOND SYLLABUS SL. NO. DESCRIPTION PO PSO mapping PROPOSED ACTION 1. Quantum Computing: Application of Quantum mechanics in Computer Science PO1, PO2, PO12, PSO1 Topic to be addressed by an External resource person
5 LESSON PLAN Program: B. Tech CSE (A) SEM: 3 RD AY: YEAR: 2 ND Course Name: Physics II Course Code: PH-301 Contact: 3L+1T Credit: 4 Lect. NO. TOPICS TO BE COVERED 1 Interpretation of Gradient Divergence and Curl in vector calculus. 2 Line, surface and volume integral Gauss and Stokes theorem and its application 3 Expression of Grad, Div, Curl and Laplacian in Spherical and Cylindrical co-ordinates. 4 Coulomb's law in vector form. Electrostatic field and its curl. Gauss's law in integral form and conversion to differential form 5 Electrostatic potential and field, Poisson's equation (Application to Cartesian, Spherically and Cylindrically symmetric systems - effective 1D problem) 6 Electric current, drift current, drift velocity, current density, continuity equation, steady current. 7 Concept of polarization, Derivation of the relation D=ε0E+P, Polarizabilty 8 Electronic polarization and polarization in monatomic and polyatomic gases. 9 Lorentz force, force on a small current element placed in a magnetic field. Biot-Savart law and its applications 10 Divergence of magnetic field, vector potential, Ampere s law in integral form and conversion to differential form 11 Faraday s law of electro-magnetic induction in integral form and conversion to differential form. 12 Concept of displacement current Maxwell s field equations, Maxwell s wave equation and its solution for free space. 13 Electromagnetic wave in a charge free conducting media, Skin depth, physical significance of Skin Depth 14 Electromagnetic energy flow & Poynting Vector and its significance. 15 Concept of probability and probability density, operators, commutator. 16 Formulation of quantum mechanics and Basic postulates, Principle of correspondence 17 Physical interpretation of wave function ψ (normalization and probability interpretation), Expectation values 18 Time dependent Schrodinger s equation, formulation of time independent Schrodinger s equation by method of separation of variables, TEACHING METHODOLOGY/ TEACHING AIDS TM2/ TA2 BOOKS R1, R2, R4 R1, R2, R4 R1, R2, R4 R1, R3, R5 R1, R3, R5 R1, R3, R5 R2, R6 R2, R6 R2, R6
6 19 Application of Schrodinger equation Particle in an infinite 1-D square well potential 20 Application of Schrodinger equation Particle in 3-D cubical box, Concept of degeneracy and degenerate energy levels 21 Constraints and its different types, Examples of constraint equations, Degree of freedom 22 Generalised coordinates, Lagrange s Equation of motion and Lagrangian, generalised force potential, momenta and energy. 23 Hamilton s Equation of motion and Hamiltonian. Properties of Hamilton and Hamilton s equation of motion. 24 Concept of energy levels and energy states. Microstates, Macrostates and thermodynamic probability 25 Characteristics of Maxwell-Boltzmann, Fermi-Dirac and Bose- Einstein Statistics, Defining Fermions and Bosons 26 Density of states, Fermi distribution at zero & non-zero temperature with graphical representation 27 Calculation of Fermi level in metals, also total energy at absolute zero of temperature and total number of particles 28 Deduction of Planck s law of blackbody radiation using Bose- Einstein Statistics REFERENCE/TEXT BOOKS: R9,R1 R9,R1 R9,R1 R1. Principles of Engineering Physics: II, S. P. Kuila, New Central Book Agency R2. Integrated Engineering Physics, Amal Kumar Chakrabarty, Chhaya Prakashani R3. A Complete Course in Engineering Physics Volume-II, Sudipto Roy, Tanusri Ghosh & Dibyendu Biswas, S. Chand. R4. Vector Analysis by Spiegel. Publisher: Tata McGraw Hill Education. R5. Electricity and Magnetism by D Chattopadhyay. Publisher: New Central Book Agency. R6. Introduction to Electrodynamics, Griffiths, Pearson R7. Modern Quantum Mechanics, J.J. Sakurai, Addison Wesley R8. Introduction to Quantum mechanics, Griffiths, Pearson R9. Classical Mechanics, Herbert Goldstein. Publisher: Pearson R10. Fundamentals of Statistical and Thermal Physics, F. Reif, Waveland Press Inc. TEACHING METHODOLOGY: TM1. LECTURE TM2. POWERPOINT PRESENTATION TEACHING AID: TA1. WHITE BOARD AND MARKER TA2. PROJECTOR
7 B.P. PODDAR INSTITUTE OF MANAGEMENT AND TECHNOLOGY ACADEMIC YEAR: ODD SEMESTER LIST OF BRIGHT STUDENTS PROGRAM: CSE-A COURSE CODE: PH-301 SEMESTER: 3 rd COURSE NAME: PHYSICS-2 FACULTY: DR. PAPRI SAHA First List Identified from grades obtained in PH-101. Students who have scored E and above have been considered Sl. no University Roll Name of the student Arindam Kundu Abhishek Shaw Abir Ghosh Akash Kumar Singh Amiya Ghosh Amrita Dey Kushal Ghosh Meghali Ghosh Muskan Gupta Muskan Verma Total Students = 62; Percentage of Bright students in class = 16% Prepared by HOD, (CSE DEPT.)
8 B.P. PODDAR INSTITUTE OF MANAGEMENT AND TECHNOLOGY ACADEMIC YEAR: ODD SEMESTER LIST OF BRIGHT STUDENTS PROGRAM: CSE-A COURSE CODE: PH-301 SEMESTER: 3 rd COURSE NAME: PHYSICS-2 FACULTY: DR. PAPRI SAHA Second List Identified from interaction and response in class along with attendance Sl. no University Roll Name of the student Ashmita Kumari Arunava Dey Anuska Roy Ankit Kumar Anjali Singh Anamika Choudhury Debadrita Biswas Meghali Ghosh Muskan Gupta Muskan Verma Total Students = 62; Percentage of Bright students in class = 16% Prepared by HOD, (CSE DEPT.)
9 B.P. PODDAR INSTITUTE OF MANAGEMENT AND TECHNOLOGY ACADEMIC YEAR: ODD SEMESTER LIST OF BRIGHT STUDENTS PROGRAM: CSE-A COURSE CODE: PH-301 SEMESTER: 3 rd COURSE NAME: PHYSICS-2 FACULTY: DR. PAPRI SAHA Third List Identified from first class test results: Those who obtained 23 and above out of 25 has been considered Sl. no University Roll Name of the student Arindam Kundu Arpan Chatterjee Amiya Ghosh Meghali Ghosh Muskan Verma Anuska Roy Total Students = 62; Percentage of Bright students in class = 9.6% Prepared by HOD, (CSE DEPT.)
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