BPHYS102: Physics for CSE stream syllabus CSE Stream Physics Group 2022 Scheme

Physics for CSE stream detailed syllabus for CSE Stream Physics Group 2022 Scheme curriculum has been taken from the VTUs official website and presented for the CSE Stream Physics Group students. For course code, course name, duration, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For CSE Stream Physics Group 1st Sem scheme and its subjects, do visit CSE Stream Physics Group 1st Sem 2022 Scheme scheme. The detailed syllabus of physics for cse stream is as follows.

Course Objectives:

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Teaching-Learning Process

These are sample Strategies, which teacher can use to accelerate the attainment of the various course outcomes and make Teaching -Learning more effective

1. Flipped Class
2. Chalk and Talk
3. Blended Mode of Teaching and Learning
4. Simulations, Interactive Simulations and Animations
5. NPTEL and Other Videos for theory topics
6. Smart Class Room
7. Lab Experiment Videos

Module 1:

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Module 2:

(8 Hours) Quantum Mechanics: de Broglie Hypothesis and Matter Waves, de Broglie wavelength and derivation of expression by analogy, Phase Velocity and Group Velocity, Heisenberg’s Uncertainty Principle and its application (Non existence of electron inside the nucleus – Non Relativistic), Principle of Complementarity, Wave Function, Time independent Schrodinger wave equation (Derivation), Physical Significance of a wave function and Born Interpretation, Expectation value, Eigen functions and Eigen Values, Particle inside one dimensional infinite potential well, Quantization of Energy States, Waveforms and Probabilities. Numerical Problems.
Pre Requisite: Wave-Particle dualism
Self-learning: de Broglie Hypothesis

Module 3:

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Module 4:

(8 Hours) Electrical Properties of Materials and Applications Electrical Conductivity in metals Resistivity and Mobility, Concept of Phonon, Matheissen’s rule, Failures of Classical Free Electron Theory, Assumptions of Quantum Free Electron Theory, Fermi Energy, Density of States, Fermi Factor, Variation of Fermi Factor With Temperature and Energy. Numerical Problems. Superconductivity Introduction to Super Conductors, Temperature dependence of resistivity, Meissner’s Effect, Critical Field, Temperature dependence of Critical field, Types of Super Conductors, BCS theory (Qualitative), Quantum Tunnelling, High Temperature superconductivity, Josephson Junctions (Qualitative), DC and RF SQUIDs (Qualitative), Applications in Quantum Computing: Charge, Phase and Flux qubits, Numerical Problems.
Pre Requisites: Basics of Electrical conductivity
Self-learning: Resistivity and Mobility

Module 5:

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Course Outcomes:

(Course Skill Set) At the end of the course the student will be able to:

1. Describe the principles of LASERS and Optical fibers and their relevant applications.
2. Discuss the basic principles of the Quantum Mechanics and its application in Quantum Computing.
3. Summarize the essential properties of superconductors and its applications in qubits.
4. Illustrate the application of physics in design and data analysis.
5. Practice working in groups to conduct experiments in physics and perform precise and honest measurements.

Suggested Learning Resources:

1. Solid State Physics, S O Pillai, New Age International Private Limited, 8th Edition, 2018
2. Engineering Physics by Gupta and Gour, Dhanpat Rai Publications, 2016 (Reprint)
3. A Textbook of Engineering Physics- M N Avadhanulu and P G Kshirsagar, 10th revised Ed, S Chand & Company Ltd, New Delhi
4. Concepts of Modern Physics, Aurthur Beiser, McGrawhill, 6th Edition, 2009
5. Lasers and Non Linear Optics, B B Loud, New age international, 2011 edition
6. A Textbook of Engineering Physics by M N Avadhanulu, P G Kshirsagar and T V S Arun Murthy, Eleventh edition, S Chand and Company Ltd New Delhi-110055
7. Quantum Computation and Quantum Information, Michael A Nielsen & Isaac L Chuang, Cambridge Universities Press, 2010 Edition
8. Quantum Computing, Vishal Sahani, McGraw Hill Education, 2007 Edition.
9. Quantum Computing – A Beginner’s Introduction, Parag K Lala, Indian Edition, Mc GrawHill, Reprint 2020.
10. Engineering Physics, S P Basavaraj, 2005 Edition, Subhash Stores.
11. Physics for Animators, Michele Bousquet with Alejandro Garcia, CRC Press, Taylor & Francis, 2016.
12. Quantum Computation and Logic: How Quantum Computers Have Inspired Logical Investigations,Maria Luisa Dalla Chiara, Roberto Giuntini, Roberto Leporini, Giuseppe Sergioli,TrendsinLogic, Volume 48, Springer.
13. Statistical Physics: Berkely Physics Course, Volume 5, F. Reif, McGraw Hill.
14. Introduction to Superconductivity, Michael Tinkham, McGraw Hill, INC, II Edition

Web links and Video Lectures (e-Resources):

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Activity Based Learning (Suggested Activities in Class)/ Practical Based learning

1. http://nptel.ac.in
2. https://swayam.gov.in
3. https://virtuallabs.merlot.org/vl_physics.html
4. https://phet.colorado.edu
5. https://www.myphysicslab.com

Laboratory Component:

Any Ten Experiments have to be completed from the list of experiments
Note: The experiments have to be classified into

1. Exercise
2. Demonstration
3. Structured Inquiry
4. Open EndedBased on the convenience classify the following experiments into above categories. Select at least one simulation/spreadsheet activity.

List of Experiments:

1. Determination of wavelength of LASER using Diffraction Grating.
2. Determination of acceptance angle and numerical aperture of the given Optical Fiber.
3. Determination of Magnetic Flux Density at any point along the axis of a circular coil.
4. Determination of resistivity of a semiconductor by Four Probe Method
5. Study the I-V Characteristics of the Given Bipolar Junction Transistor.
6. Determination of dielectric constant of the material of capacitor by Charging and Discharging method.
7. Study the Characteristics of a Photo-Diode and to determine the power responsivity / Verification of Inverse Square Law of Intensity of Light.
8. Study the frequency response of Series & Parallel LCR circuits.
9. Determination of Planck’s Constant using LEDs.
10. Determination of Fermi Energy of Copper.
11. Identification of circuit elements in a Black Box and determination of values of the components.
12. Determination of Energy gap of the given Semiconductor.
13. Step Interactive Physical Simulations.
14. Study of motion using spread Sheets
15. Study of Application of Statistics using spread sheets
16. PHET InteractiveSimulations(https://phet.colorado.edu/en/simulations/filter?subjects=physics&type=html,prototype)

For detailed syllabus of all other subjects of CSE Stream Physics Group, 2022 Scheme curriculum do visit CSE Stream Physics Group 1st Sem subject syllabuses for 2022 Scheme.

For all CSE Stream Physics Group results, visit VTU CSE Stream Physics Group all semester results direct link.