Instructor for EEE Labs, Department of Electrical and Electronics Engineering
Semester I
Semester II
PhD Courses
MATH F111 - Mathematics I
To be updated soon.
Courses: Advance Stochastic Processes
Undergraduate Courses: Differential equations, Computational methods for differential equations, Calculus
Postgraduate Courses: C programming, Numerical analysis
Courses: Matrix Computation and its applications, Scientific computing using MATLAB, Introduction to methods of applied mathematics.
Courses Taught multiple times as IC/Instructor
Higher Degree (M.Phil) and pre- Ph.D. courses
Courses Developed
New elective developed under revised curriculum
Higher Degree (M.Phil) and pre- Ph.D. courses
Theory Courses
CHEM F213 : Physical Chemistry II (2024)
Lab/Practical Courses
CHEM F341 : Chemical Experimentation II (2024)
I worked as a TA for six years at Northeastern University. During my TA ship I taught regular classes most of the time ( except the first semester when I only worked as a grader and tutorial instructor ). I taught mostly differential equations and linear algebra to engineering students. I have also taught elementary algebra and pre-calculus to business and nursing students.
I taught various undergraduate and graduate level courses in IISER Kolkata, I have taught courses related to, algebra, topology, graph theory, representation theory, geometry.
· Group Theory
· Ring Theory
· Representation Theory of Groups and Algebras
· Topology
· Introduction to Algebraic Topology
· Combinatorics
· Calculus –I
· Fundamentals of Mathematics
· Graph Theory
· Number Theory
First Degree :
* Courses Introduced and designed by me.
Name of Organization |
Designation held |
Total Experience (Years) |
|
Experience Prior to Ph.D. |
Birla Institute of Tech & Science, Pilani - Pilani Campus | Assistant Lecturer |
1.5 |
Experience during Ph.D. |
Birla Institute of Tech & Science, Pilani – Pilani Campus |
Lecturer |
4.5 |
Experince after Ph.D. |
Birla Institute of Tech & Science, Pilani –Pilani Campus |
Assistant Professor |
3 |
Birla Institute of Tech & Science, Pilani - Goa Campus | Assistant Professor | 2 | |
Birla Institute of Tech & Science, Pilani – KK Birla Goa Campus |
Associate Professor
|
4.5 | |
Birla Institute of Tech & Science, Pilani – KK Birla Goa Campus
|
Professor | 7.5 |
1st Semester 2024-2025
EEE F111 - Electrical Sciences
EEE F215 - Digital Design
MEL G621 – VLSI Design
First Degree Courses
· General Biology
· Microbiology
· Biological Chemistry
· Instrumental Methods of Analysis
· Genetics
· Introduction to Environmental Biotechnology
· Recombinant DNA Technology
· Experiments In Biotechnology
· Cell and Tissue Culture Technology
· Biophysical Chemistry
· Food Biotechnology
· New Venture Creation
Higher Degree Courses
· Environmental Biotechnology And Waste Management
· Microbial Fermentation Technology
· Protein and Enzyme Bioengineering
Marketing Management
Marketing Research
Digital Marketing
Brand Management
Principles of Management
Course name |
Course code |
FD/HD |
Advanced Manufacturing Processes | ME F315 | FD |
Composite Materials and Design | ME F452 | FD |
Refrigeration & Air Conditioning | ME F461 | FD |
Vibrations and Control | ME F319 | FD |
Wokshop Lab | ME F110 | FD |
Advanced Composites | MST G522 | HD |
Dynamics and Vibrations | DE G611 | HD |
Materials Technology & Testing | DE G631 | HD |
Research Practice | BITS G540 | HD |
# |
Designation |
Institution |
From |
To |
Classes Taught |
1 |
Professor |
Birla Institute of Technology & Sciences Pilani, Pilani Campus, Pilani, Rajasthan
|
01 Jun.’2021 |
-- |
First Degree, Higher Degree
|
2 |
Associate Professor |
01 Jan.’2016 |
31 May’2021 |
||
3 |
Associate Professor |
01 Feb.’2015 |
31 Dec.’2015 |
||
4 |
Assistant Professor |
01 Aug.’2010 |
31 Jan.’2015 |
||
5 |
Assistant Professor |
01 Jan.’2006 |
31 Jul.’2010 |
||
6 |
Lecturer |
10 Sep.’2004 |
31 Dec.’2005 |
||
7 |
Lecturer |
B.S.A. College of Engineering and Technology, Mathura, Uttar Pradesh |
30 Jan.’2003 |
08 Sep.’2004 |
MCA, Engineering Graduate |
8 |
Guest Assistant Teacher |
Institute of Engineering and Technology, Dr. B.R. Ambedkar University, Agra, Uttar Pradesh |
09 Mar.’2002 |
29 Jan.’2003 |
Engineering Graduate |
9 |
Guest Teacher |
Dau Dayal Institute of Vocational Education, Dr. B.R. Ambedkar University, Agra, Uttar Pradesh |
16 Jul.’2000 |
08 Dec.’2000 |
Graduate, Post-Graduate |
10 |
Visiting Lecturer |
Dehra Dun Institute of Technology, Dehra Dun, Uttarakhand |
13 Oct.’1999 |
14 Jan.’2000 |
Engineering Graduate |
11 |
Lecturer |
Uttaranchal College of Engineering, Dehra Dun, Uttarakhand |
10 Aug.’1998 |
27 Jan.’2000 |
Engineering Graduate, Engineering Diploma |
First Semester 2024 - 2025
Second Semester 2023 - 2024
1.HSS F222: Introduction to Linguistics:
Difficulty level: Moderate.2.HSS F228: Phonetics and Spoken English
Difficulty level: Easy-Moderate.
3.BITS F112: Technical Report Writing
Difficulty level: Easy-Moderate.4.BITS E661: Research Methodology (for PhD candidates)
Difficulty level: Easy-Moderate.5.PHIL C221 / HSS F236: Symbolic Logic
Difficulty level: Difficult.6.HSS F242: Introduction to Phonology
Difficulty level: Moderate-difficult.Courses in the pipeline:
Courses Taught :-
I have taught several courses during my academic career in BITS, some of these are listed below. Text books and reference material identified by author names (indicated in parenthesis) are provided as an aid in gauging the level at which each course was taught. Many of these courses were taught multiple times. Year and semester wise breakup details have not been maintained.
Cognitive Neuroscience
Cognitive Psychology
Neuropsychology
Neuropragmatics
Experimental Pragmatics
Neurolinguistics
General Linguistics
Semester-1
Course Instructor: Harikrishnan N B
Teaching Assistant: Mr. Tanmay Devale, Mr. Param Biyani
Course Duration: August 2022 to December 2022
Credit: 3
No. of students: 60
Course Instructor: Harikrishnan N B
Course Duration: Jan 2023- May 2023
Teaching Assistant: Mr. Aditya Amit Bhattacharjee
No. of students: 53 (WILP Course)
Course Instructor: Harikrishnan N B
Course Duration: August 2023- December 2023
No. of students: 272
Feedback: DD-2023 (Out of 10)
Course Instructor: Harikrishnan N B
Course Duration: Jan 2024-May 2024
No. of students: 80
Feedback: BIDL -2024 (Out of 10)
1. | Microelectronic Circuits | B E | 4th sem | BITS Hyderabad |
2. | Electronic Devices | B E | 3rd sem | BITS Hyderabad |
3. | Semiconductor Devices | B Tech | 3rd sem | IIT Kharagpur |
4. | Solid State Devices | B Tech | 3rd sem | IIT Hyderabad |
5. | Basic Electronics | B Tech | 2nd sem | IIT Kharagpur |
6. | Device Physics & Modeling | M Tech | 1st sem | IIT Kharagpur |
7. | Microprocessors & Computer Organization | B Tech | 6th sem | IIT Hyderabad |
8. | Advanced VLSI Devices | M E | 2nd sem | BITS Hyderabad |
9. | Advanced VLSI Design | M E | 2nd sem | BITS Hyderabad |
10. | Analog and Digital VLSI Design | B E | 5th sem | BITS Hyderabad |
11. | Physics and Modeling of Microelectronic Devices | M E | 1st sem | BITS Hyderabad |
1. | Advanced Nanoscale Devices - Applied to State-of-the Art VLSI | M Tech / Ph D | IIT Kharagpur |
2. | Advanced Semiconductor Physics - Applied to State-of-the Art VLSI | M Tech / Ph D | IIT Kharagpur |
Current Semester
Courses Taught
Courses Taught
First semester (AY 2024-2025):
In Veermata Jijabai Technological Institute (VJTI), Mumbai (Autonomous)
PHY-F111 Mechanics Oscillations and Waves
BITS-F111 Thermodynamics
PHY-F417 Experimental Methods of Physics
PHY-F110 Physics Laboratory
PHY-F214 Electricity Magnetism and Optics Laboratory
Sl. No. |
Title of courses taught |
Postgraduate or Undergraduate |
01 |
Refrigeration and Air-Conditioning |
Postgraduate + Undergraduate |
02 |
Conduction and Radiation Heat Transfer |
Postgraduate |
03 |
Thermal Equipment Design |
Postgraduate |
04 |
Power Plant Engineering |
Undergraduate |
05 |
Engineering Thermodynamics |
Undergraduate |
06 |
Quality Control, Assurance and Reliability (WILP) |
Undergraduate |
07 | Statistical Process Control (WILP) | Undergraduate |
08 |
Internal Combustion Engines (Tutorial) |
Undergraduate |
09 |
Prime Movers and Fluid Machines (Lab) |
Undergraduate |
10 |
Engineering Graphics using Autocad (Lab) |
Undergraduate |
11 |
Machine Design and Drawing (Lab) |
Undergraduate |
12 |
Workshop Practice (Lab) |
Undergraduate |
EEE F111 [Electrical Sciences]
EEE/ECE/INSTR F214 [Electronic Devices]
CS/EEE/ECE/INSTR F215 [Digital Design]
EEE/ECE/INSTR F243 [Signals & Systems]
EEE F246 [Electrical & Electronics circuit Lab (Signals & Systems)]
EEE/ECE/INSTR F341 [Analog electronics]
EEE F426 [Fibre Optics & Optoelectronics]
EEE/ECE F434 [Digital Signal Processing]
ES/EEE/MEL ZG573 [Digital Signal Processing] for WILP* students
ENGG ZC11 [Electrical & Electronics Technology[ for WILP* students
(* WILP : Work Integrated Learning Program)
Labs Taken
(1) Digital Design
(2) Digital Signal Processing
(3) Analog Electronics
Professional Training Taken
Successfully completed 2 Weeks Instructor Led Live Online Industrial Training Program On Artificial Intelligence & Machine Learning Using Python held during 10th - 21st January 2022 Finland Labs (A Unit of Revert Technology Pvt. Ltd., New Delhi)
10-days Live online Instructor Led training /Faculty Development Program “Applied Deep Learning in Health Care Data Analysis" from 9th May to 23rd May, 2022. Organized by Edux Labs in Association with Mechanica IIT Madras.
ECE F341/EEE F341/INSTR F341: Analog Electronics (With Tut)
ECE F314: Electromagnetic Fields and Microwave Engineering (With Tut)
ECE C452: Electromagnetic Fields and Microwave Engineering (With Tut)
ECE C433: Electromagnetic Fields and Waves (With Tut)
EA C415: Introduction to MEMS
BITS F415: Introduction to MEMS
EEE ZG571/ ES ZG571: Optical Communication (WILP)
ECE F341/EEE F341/INSTR F341: Analog Electronics Lab
EEE G540: Research Practice
Courses Taught
WILP
EEZ G515 Environmental Management Systems
CDC
F313 Separation Processes II
I teach several core and elective courses in the department:
Core courses:
Elective courses:
Subject |
Offered in |
Student’s feedback |
CHE F311 Kin. React. Des. |
Aug.-Dec-2017 |
9.17/10 |
CHE F341 Chem. Eng.Lab-II |
Jan-May 2018 |
5.65/10 |
CHE F242 Num. Meth. Chem. Eng |
Jan-May 2018 Jan-May 2019 |
7.51/10 9.15/10 |
CHE G558 Chem. Process Opti. |
Aug-Dec 2018 Jan-May 2019 Jan-May 2020 Jan-May 2021 |
8.7/10 9.42/10 Feedback not Conducted 8.18/10 |
CHE G523 Math. Meth. in Chem. Eng. |
Aug-Dec 2019 Aug-Dec 2020 Aug-Dec 2021 Aug-Dec 2023 Aug-Dec 2024 |
9.97/10 Feedback not Conducted 10/10 9.51/10 ONGOING |
BITS F111 Thermodynamics |
Jan-May 2023 |
8.59/10 |
WILP Courses |
||
EEGPC ZG513 Appl. Trans. Phenom. |
Aug.-Dec-2017 |
4.61/5 |
EEGPC ZG622 Environ Process Eng. |
Aug.-Dec-2018 Aug-Dec 2021 Jan-May 2022 |
4.61/5 4.38/5 4.51/5 |
ETZC362/PEZC411 Environ. Poll. Control |
Aug-Dec 2019 |
4.72/5 |
EE ZG511 Environ. Chem. |
Aug-Dec 2020 |
4.72/5 |
SSTMZG523 Biological Treatment Principals and Design of Wastewater Systems |
Aug-Dec 2020 |
4.75/5 |
EE ZG514/ SSTM ZG516 Environmental Sampling and Analytical Methods |
Jan-May 2021 Aug-Dec 2021 Jan-May 2022 Aug-Dec 2022 Jan-May 2023 Aug-Dec 2023 Jan-May 2024 Aug-Dec 2024 |
4.7/5 4.55/5 4.46/5 4.51/5 4.45/5 4.25/5 4.10/5 ONGOING |
Special operation in Chemical Engineering
Thermodynamics
Separation Processes I
Fluid Mechanics
Reaction Engineering and design (Kinetics and reactor design)
Process Equipment Design
Process Control
Electrochemical Engineering
Transport Phenomena (UG and PG)
Chemical Engineering lab
I have been teaching two specialized courses which were designed by me and introduced from second semester of 2020-21.
These courses are: PHY F346 : Laser Science and Technology. This course is open to all Physics and Engineering students.
The second course is PHY F433 : Topics in Nonlinear Optics. This is an elective for Physics students only who have earlier taken the Optics course. This course started a year after the earlier course.
Apart from these two courses, I have been involved in teaching the three physics student labs viz. 1) Electromagnetics and Optics Laboratory, 2) Modern Physics Laboratory and 3) Advanced Physics Laboratory. I have also modified and updated the laboratory manuals of all experiments in the First year Physics Lab, EMO lab, Modern Physics Lab and Advanced Physics Lab, and a few experiments have been replaced by new experiments.
Introduction to Data Science
Data Mining
Machine Learning
Advanced Data Mining
Network Security
Operating Systems
Computer Programming
Introduction to Data Science
Data Mining
Machine Learning
Advanced Data Mining
Network Security
Operating Systems
Computer Programming
Semester I (Autumn), 2024-25: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester II (Spring), 2023-24: Computer Programming (CS F111), CS&IS, BITS Goa
Semester II (Spring), 2023-24: Computer Programming Lab (CS F111), CS&IS, BITS Goa
Semester I (Autumn), 2023-24: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester I (Autumn), 2023-24: Computer Architecture Lab (CS F342), CS&IS, BITS Goa
Semester II (Spring), 2022-23: Human-Computer Interaction (BITS F364), CS&IS, BITS Goa
Semester II (Spring), 2022-23: Operating Systems Tutorial (CS F372), CS&IS, BITS Goa
Semester I (Autumn), 2022-23: Pervasive Computing (CS G541), CS&IS, BITS Goa
Semester II (Spring), 2021-22: Human-Computer Interaction (BITS F364), CS&IS, BITS Goa
Semester II (Spring), 2021-22: Computer Networks Lab (CS F303), CS&IS, BITS Goa
Semester I (Autumn), 2021-22: Pervasive Computing (CS G541), CS&IS, BITS Goa
Chemical Process Calculation (On Campus)- CHE F211
Chemical Process Calculation (WILP) - PE ZC 321
Chemical Engineering Laboratory (On Campus)
Environmental Chemistry (WILP) - EEZG511
Research Methodology(On Campus)-BITS G661
Electrochemical Engineering - CHE G556
Project Courses:
Financial Management
Financial Analysis and Risk Management
Fundamentals of Finance and Accounting
Security Analysis and Portfolio Management
Principles of Management
Fundamental Courses:
Compulsory Disciplinary Courses:
Discipline Elective Courses:
Mathematical Modeling (MATH F420)
WILP Courses:
Engineering Mathematics – I (MATH ZC161)
Calculus (MATH ZC233 / PE ZC233)
BIO F111: GENERAL BIOLOGY (Previously BIO C111)
BIO F 212: MICROBIOLOGY (Previously BIO C212)
BIO C322: ECOLOGY (Previously BIO C322)
BIO F342: IMMUNOLOGY (Previously C 416)
BIO F244: INSTRUMENTAL METHODS OF ANALYSIS (Previously C391)
BIO C 231: BIOLOGY PROJECT LABORATORY
TA C211: MEASUREMENT TECHNIQUES 1(Biology)
BIO F 110: BIOLOGY LABORATORY
BIOT F 424: FOOD BIOTECHNOLOGY
BITS F 225: ENVIRONMENTAL STUDIES
BIO G514: MOLECULAR IMMUNOLOGY
BIO G523: ADVANCED APPLIED MICROBIOLOGY
BIO G513: MICROBIAL FERMENTATION TECHNOLOGY
BIO G651: PROTEIN AND ENZYME ENGINEERING
BITS C313; BITS C314: LABORATORY ORIENTED PROJECT
BITS C323; BITS C324: STUDY ORIENTED PROJECT
BITS C382: READING COURSE
BITS G620; PROFESSIONAL PRACTICE I
BITS G621; PROFESSIONAL PRACTICE II
BITS G540 RESEARCH PRACTICE
BITS C421T THESIS
BITS 629T DISSERTATION
B.E. and M.Sc. Biological Sciences Programmes
General Biology
Biology Laboratory
Animal Physiology
Genetics
Genomics
Molecular Biology of the Cell
Instrumental Methods of Analysis
M.E. Biotechnology Programme
Molecular Mechanisms of Gene Expression
Genetic Engineering
Human Genetics
Recent Developments in Biology
Stem cells and Regenerative Biology
Biostatistics and Biomodelling
Multidisciplinary and physics courses at the undergraduate level (B. E. / M. Sc. students).
Promoted classroom demonstration experiments for the courses.
• Mechanics, oscillations and waves
• Electronic devices
• Thermodynamics
• Electromagnetic theory
• Mechanics, oscillations and waves Lab
• Solid State Physics
• Physics of Semiconductor Devices
• Atomic and molecular physics
• Electricity and Magnetism Lab
• Modern Physics Lab
• Advanced Physics Lab
1. Thermodynamics (BITS F111)
2. Applied Thermodynamics (ME F214)
3. Prime Movers and Fluid Machines (ME F341)
4. Transport Phenomena (CE F212)
5. Renewable Energy (BITS F462)
6. Fuel Cell Science and Technology (ME F414)
7. Non-destructive Testing Techniques (MST G511)
8. Computer Aided Design (ME F342)
9. Computational Fluid Dynamics (ME G515)
10. Computer Aided Analysis and Design (ME G611)
11. Mechanical Engineering Lab (ME F215)
12. Research Practice (BITS G540)
Theory Courses
PHYC131 Physics 1(Old Curriculum)
PHYC132 Physics 2(Old Curriculum)
TA GC252 Computer Programming 2(Old Curriculum)
PHY C311 Electromagnetic theory 1(Old Curriculum)
MATH C222 Discrete structures in Computer science(few lectures in a shared multi session course, Tut)(Old Curriculum)
PHY C 321 Quantum Mechanics 1(Old Curriculum)
PHY C421 Quantum mechanics II (Old Curriculum)
PHY F213 Optics
PHY F420 Quantum Optics(Shared with another instructor)
PHY F212 Electromagnetic theory-1 (common for PHY, EEE, INSTR &CHE)
PHY F421 Advanced Quantum Mechanics(Shared with another instructor)
PHY F412 Introduction to Quantum Field Theory
MATH F211 Mathematics-III
PHY F315 Theory of Relativity
PHY F243 Mathematical methods in Physics
PHY F241 Electromagnetic theory-2
PHY F345 Quantum Mechanics for Engineers
PHY G513 Classical electrodynamics
BITS F111 Thermodynamics(Tutorials)
PHY G514 Quantum theory and applications
Lab Courses
PHY C391 IMA (Old curriculum )
TA GC211 Measurement Techniques-1(Old Curriculum)
Physics Lab 1(Mechanics and Waves)
Physics Lab2(Optics, Electricity and Magnetism)
Physics Lab3 (Modern Physics lab)
Project Courses
BITS C323/324 SOP
Physics Project Lab
PHY F376 Design Project
PHY F376 Study Project
Courses Developed
PHY F420 Quantum Optics (with Prof. Radhika Vatsan)
PHY F345 Quantum Mechanics for Engineers
Disaster management
Leadership in Emergency management
Decentralization and development
Local governance
Sociology
Human Geography
BITS F112: Technical Report Writing
GS F231: Dynamics of Social Change
HSS F362: Local Governance and Participation
HSS F363: Disaster and Development
Physical Geography, Human Geography and Population Geography to under graduate students
Geomorphology to MSc students
Learning History through Maps to MA students
Country and Town Planning to B.Tech. Civil engineering students
TEACHING EXPERIENCE:
Year |
Semester-I |
Semester-II |
2023-2024 |
CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2022-2023 |
CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2021-2022 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2020-2021 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2019-2020 |
CHE F212: Fluid Mechanics CHE F613: Advanced Mass Transfer |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2018-2019 |
CHE F342: Process Dynamics & Control CHE F471: Advanced Process Control |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2017-2018 |
CHE F212: Fluid Mechanics CHE C473: Advanced Process Control |
CHE F244: Separation Processes-I CHE F413: Process Plant Safety |
2016-2017 |
CHE F212: Fluid Mechanics CHE C473: Advanced Process Control |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control |
2015-2016 |
CHE F212: Fluid Mechanics CHE C473/F471 & INSTR F413: Advanced Process Control |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control |
2014-2015 |
CHE F212: Fluid Mechanics CHE C473/F471 & INSTR F413: Advanced Process Control CHE C441: Process Control |
CHE C473/F471 & INSTR F413: Advanced Process Control CHE F342: Process Dynamics & Control |
2013-2014 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control BITS C313/ 314: Lab Oriented Project |
CHE F244: Separation Processes-I CHE F342: Process Dynamics & Control BITS C313/ 314: Lab Oriented Project |
2012-2013 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control BITS C313/ 314: Lab Oriented Project |
CHE F244: Separation Processes-I CHE C441: Process Control BITS C313/ 314: Lab Oriented Project |
2011-2012 |
CHE C361: Mass Transfer Operations CHE G541: Process Plant Simulation BITS C313/ 314: Lab Oriented Project |
CHE G541: Process Plant Simulation CHE C441: Process Control BITS C313/ 314: Lab Oriented Project |
2010-2011 |
CHE C361: Mass Transfer Operations CHE C473: Advanced Process Control |
CHE C322: Chemical Process Technology CHE C441: Process Control |
2009-2010 |
CHE C432: Computer Aided Process Plant Design CHE C473: Advanced Process Control |
CHE C432: Computer Aided Process Plant Design CHE C441: Process Control TA C222: Measurement Techniques-II |
2008-2009 |
CHE C431: Select Che. Engineering Lab 409352: Project Costing & Appraisal |
CHE C322: Chemical Process Technology |
2007-2008 |
Fundamental of Chemical Engineering |
Environmental Engineering Transport Phenomena |
2006-2007 |
Fundamental of Chemical Engineering |
Fundamental of Chemical Engineering |
Undergraduate Engineering courses ( For B.E. hons. Programme)
Project type courses
Post Graduate Engineering Courses (For M.E. Microelectronics/M.E. Embedded Systems Programme)
Work Integrated Learning Programme (WILP) On-Line/ Video Lectures (For M.S.Programme)
c
Electromagnetic theory - II (2nd course of EMT for MSc students)
Statistical mechanics (Introductory course for MSc students)
Computational Physics (for MSc. students)
Nonlinear dynamics (Introductory elective course taught from Strogatz)
Modern physics (covers relativity, introductory wave mechanics)
Theoretical Neursocience (an elective course based on book by Dayan and Abbott)
Neural networks (an elective taught from Zurada for all science and engg students)
Mechanics, oscillations and waves (taught from Kleppner & French) for all science & engg students)
Physics - II (1st course in EMT for all science & engg students )
Structure and properties of matter
Measurement technique - 1 (Lab course for all science and engg students)
Physics Lab - 1 (Lab course for all science and engg students)
Instrumental method of analysis (Lab course for MSc)
Classical Mechanics
FIRST DEGREE
Year |
Semester I |
Semester II |
2013-2014 |
Microfluidics and its applications BITS F417 |
Introduction to Nanoscience and Nanotechnology CHE G528 |
|
Environmental Pollution Control ETZC362 |
Environmental Pollution Control ETZC362
|
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
|
|
Chemical Process Calculations CHE F211/CHE 221 |
|
|
||
2014-2015 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Environmental Pollution Control (POWJSZC411) (Aditya Birla, Essar & Tata Power) |
Physico Chemical Treatment Processes & Design of Wastewater Systems (GSPCB) EE*ZG521 |
|
||
2015-2016 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Applied Transport Phenomena (GSPCB) EE*ZG513 |
Chemical Engineering Laboratory - II (LAB) CHE F314 |
|
||
2016-2017 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
Chemical Engineering Laboratory - II (LAB) CHE F314 |
|
|
Research Methodology-I BITS G661
|
|
|
Material Science and Engineering CHE F243 |
|
||
2017-2018 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory–I (LAB) CHE F312 |
Research Methodology-I BITS G661
|
|
||
2018-2019 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Research Methodology-I BITS G661 |
|
|
Process Plant Design Project I CHE F416
|
|
||
2019-2020 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
|
Process Plant Design Project II CHE F417
|
|
|
Heat Transfer CHE F241
|
|
||
2020-2021 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
Process Plant Design Project I CHE F416 |
Process Plant Design Project II CHE F417
|
|
Process Plant Design Project II CHE F417
|
Heat Transfer CHE F241 |
|
|
|
2021-2022 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Chemical Engineering Laboratory-I (LAB) CHE F312 |
Process Plant Design Project I CHE F416 |
|
Process Plant Design Project I CHE F416 |
Process Plant Design Project II CHE F417 |
|
Process Plant Design Project II CHE F417
|
Material Science and Engineering CHE F243 |
|
Engineering Chemistry CHE F214 |
|
|
|
|
2022-2023 |
Microfluidics and its applications BITS F417 |
Chemical Process Technology CHE F419 |
|
Process Plant Design Project I CHE F416 |
Chemical Engineering Laboratory - II (LAB) CHE F341 |
|
Process Plant Design Project II CHE F417 |
Process Plant Design Project I CHE F416 |
|
Engineering Chemistry CHE F214 |
Process Plant Design Project II CHE F417 |
|
|
|
Undergraduate Courses(Multi-section) |
|
ES C112 |
Thermodynamics |
TA C211 |
Measurement Techniques -II |
ES C242 |
Structure and Properties of Materials |
BITS F225 |
Environmental Studies |
Undergraduate Courses Chemical Engineering Compulsory Disciplinary Courses |
|
CHE C221 |
Chemical Process Calculations |
CHE F242 |
Numerical Methods for Chemical Engineers |
CHE F244 |
Separation Processes I |
CHE F213 |
Chemical Engineering Thermodynamics |
CHE F244 |
Separation Processes I |
CHE F313 |
Separation Process II |
CHE F313 |
Chemical Engineering Laboratory I |
CHE F341 |
Chemical Engineering Laboratory II |
Undergraduate &Postgraduate Chemical Engineering Electives |
|
CHE F411 |
Environmental Pollution Control |
CHE C322 |
Chemical Process Technology |
CHE C413 |
Process Plant Safety |
CHE G522 |
Polymer Technology |
Postgraduate Chemical Engineering Compulsory Disciplinary Courses |
|
CHE G622 |
Advanced Chemical Engineering Thermodynamics |
BITS E661 |
Research Methodology |
Work Integrated Learning Programme(WILP) |
|
PERL ZC 231 |
Engineering Materials |
PERL ZC321 |
Chemical process calculations |
PERL ZC 311 |
Chemical Engineering Thermodynamics |
PEAB ZC382 |
Cement Technology |
PE ZC319 |
I have taught a variety of courses on campus since October 2005. They are listed below:
This introductory physics laboratory introduces the art of experimentation in Physics through various experiments in Mechanics, Oscillations and Waves.
All students of BITS Pilani study this course irrespective of their program of study. This course is an elementary introduction to the theory and applications in the subject area of Mechanics, Oscillations and Waves.
This course introduces the Lagrangian and Hamiltonian mechanics of a system with finite degrees of freedom. Three classes of applications that are included in the course of study are:
This course introduces the student to the unified theory of Electricity, Magnetism and Light. The course is roughly divided into three parts, each of which addresses the following questions:
The theory of interacting charged particles and electromagnetic fields is analyzed in detail.
I have taught this course twice before under the pre-2012 curriculum framework. The first part discussed a variety of partial differential equations while the second part was devoted to basic elements of group theory and its representations.
A laboratory course consisting of exciting experiments from Modern Physics.
Teaching is the bit in my professional life that I enjoy most. From teaching the first year physics and mathematics courses to wide eyed freshers to teaching advanced physics courses to the die hard physics enthusiast, I relish the challenge of presenting ideas and concepts in physics with as much transparency as is possible.
Semester I, 2024-25
Special Topics in Statistical Mechanics (PHY F423) Advanced course in statistical mechanics that covers interacting systems, mean field theory, phase transitions and renormalization group. (Text books: Statistical Mechanics by Kerson Huang, Equilibrium Statistical Mechanics by M. Plischke and B. Bergersen and Principles of Condensed Matter Physics by P. M. Chaikin and T.C. Lubensky.)
Statistical Physics and Applications (PHY F516) A course in equilibrium statistical mechanics for PhD students. (Text books: Statistical Physics of Particles by M Kardar)
Semester II, 2023-24
Mechanics Oscillations and Waves (PHY F111) The bread and butter course of our department, where we engage the freshers with intermediate mechanics and related topics of waves and oscillations. After a quick revision of fundamental laws and necessary mathematical introduction, advanced topics such as rigid body motion, non-inertial frames, coupled oscillators and Fourier analysis of waves are discussed. (Text book: An Introduction Mechanics by Kleppner and Kolenkow, Introduction to Waves by A P French.)
Theoretical Neuroscience (BITS F317) A first course in Theoretical Neuroscience that introduces neuronal behavior modelling using non-linear differential equations as well the concepts of encoding and decoding of neural data. (Text books: Introduction to neuronal dynamics by Gerstner et al, Introduction to Theoretical Neuroscience by Dayan and Abbott)
Some of the course taught over the semesters
Physics Lab - 1 (PHY F110)
Mechanics lab that runs in tandem with the course on Mechanics, Oscillations and Waves for undergraduate students. It has an assorted set of 10 experiments exploring various concepts in mechanics. Some of the experiments included are: Gyroscope, Coupled Pendulum, Maxwell's wheel etc.
Classical Mechanics (PHY F211)
Second course on mechanics for the physics masters students. Topics covered includes: Planetary motion, rigid body motion, small oscillations, Lagragian and Hamiltonian formalism, Hamilton Jacobi theory. Text books: Classical Mechanics by H. Goldstien, Introduction to classical mechanics by Landau & Lifshitz )
Computational Physics (PHY F313)
A course that focuses on computational numerical analysis with stress on solving physics problem. The course has got a strong hands on component wherein student use the techniques they learn in computational lab to solve problems from mechanics, electricity and magnetism, quantum mechanics and nonlinear dynamics. (Texts book: A First Course in Computational Physics by P L Devries and J E Hasbun, An Introduction to Computational Physics by Tao Pang)
Electromagnetic Theory-2 (PHY F241)
A second course in electricity and magnetism that look at electromagnetic waves (in a vacuum and media), radiation and special theory of relativity. (Text books: Introduction to Electrodynamics by D J Griffiths, Classical Electrodynamics by D Jackson, Feynman Lectures Vol -2)
Mathematics-2 (MATH F112)
A first year course taken by all engineering and science students dealing with introductory linear algebra and complex analysis. (Text books: Elementary Linear Algebra by S Andrilli and D Hecker, Complex Variables and Applications by Churchill and Brown)
Nonlinear Dynamics and Chaos (BITS F316)
An introductory course focusing on methods of studying nonlinear systems. This enables one to explore the rich dynamical behavior these systems exhibit. The students are introduced to bifurcations, fixed points, limit cycles and chaos in nonlinear system. Throughout the course the focus is on applying the methods learned in understanding the dynamics of various systems that are relevant in science and engineering. (Text book: Nonlinear Dynamics and Chaos by Steven H Strogatz)
Analog & Digital VLSI Design
Courses Taught / Teaching :
ECON F313: Issues in Economic Development
ECON F412/FINF313: Security Analysis and Portfolio Management
ECON F315: Financial Management
ECON F244: Economics of Growth and Development
FIN F414: Financial Risk Analysis and Management ECON F413: Financial Engineering
ECON F242: Micro economics ECON F243: Macro Economics
ECON F312: Money Banking and Financial Markets
ECON F311: International Trade and Balance of Payments ECON F341: Public Finance Theory and Policy
ECON F211: Principles of Economics
ECON F212: Fundamentals of Finance and Accounts ECON F241: Econometrics Methods
ECON F214: Economic Environment of Business
Mathematical Micro economics, Indian Economics, Computational Business Economics
Stem Cell and Regenerative Biology
Fundamentals of Tissue Engineering
Biology laboratory
Developmental Biology
Instrumentation method and analysis
General Biology
Integrated Biology
AS Instructor in Charge
Sanitation and Public Health (SAN G512)
Sanitation and Public Health (SSTM ZG512) in WILP mode
Environmental Studies (BITS F225)
AS Instructor
Genetic Engineering Techniques (BIO F418)
Experimental Techniques (BIO G642)
Biology Laboratory (BIO F110)
General Biology (BIO F111)
Instrumental Methods of Analysis (BIO F244)
Applied Machine Learning
Neural Networks and Fuzzy Logic
Deep Learning
Generative AI.
Courses Teaching(2024-25):
First Degree (M.Sc.) Course taught:
Pre-PhD Course taught:
SEMESTER WISE BREAK UP:
YEAR |
SEM I |
SEM II |
2003 - 2004 |
- |
CHEM C142, CHEM C351 |
2004 - 2005 |
CHEM C141 |
CHEM C142 |
2005 - 2006 |
CHEM C141, CHEM C211, TA C211 |
CHEM C142, CHEM C231 |
2006 - 2007 |
CHEM C141, CHEM C322 |
CHEM C352, CHEM C411 |
2007 - 2008 |
CHEM C141, CHEM C322 |
CHEM C231, CHEM C352, CHEM C411 |
2008 - 2009 |
CHEM C141, CHEM C322 |
CHEM C352, CHEM C411, CHEM G552 |
2009 - 2010 |
TA C211, CHEM C322, ASCR |
CHEM C352, CHEM C411, CHEM G541 |
2010 - 2011 |
TA C211, CHEM C321 |
CHEM C142, CHEM C352 |
2011 - 2012 |
CHEM F111, CHEM C321 |
CHEM C322, CHEM F110, ASCR |
2012 - 2013 |
CHEM F111, CHEM C321, BITS E574 |
CHEM C322, CHEM F241, CHEM F244 |
2013 - 2014 |
CHEM F110, CHEM F312, CHEM C311 |
CHEM C322, CHEM F241, BITS G513 |
2014 - 2015 |
CHEM F110, CHEM F312, CHEM F422, BITS C421T |
CHEM F241, CHEM F110 |
2015 - 2016 |
CHEM F111(L), CHEM F312(IC), CHEM F110, CHEM G553, CHEM C491, CHEM F376/7 |
CHEM F241, CHEM F110, CHEM F376/7 |
2016 - 2017 |
CHEM F111(L), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM G552 |
2017 - 2018 |
CHEM F111(L, IC), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM G552, CHEM G558 |
2018 - 2019 |
CHEM F111(T), CHEM F312(IC), CHEM F213, CHEM G553 |
CHEM F241, CHEM F244, CHEM F110, BITS G513 |
2019 - 2020 |
CHEM F110, CHEM F312(IC), CHEM F213, CHEM G553, BITS G529/G539 |
CHEM F241, CHEM F244, CHEM F110, BITS G513, BITS G529 |
2020 - 2021 |
CHEM F312, CHEM F213, CHEM F335, CHEM F266, CHEM F376, CHEM G553, BITS G513 |
CHEM F241, CHEM F244, CHEM F110, CHEM F266, CHEM F376, CHEM G529, CHEM G558 |
2021 - 2022 |
CHEM F312, CHEM F111, CHEM F266, CHEM F376/7, CHEM G553 |
CHEM F241, CHEM F376/7, BITS C421T |
2022 - 2023 |
CHEM F111, CHEM F312, CHEM F335, CHEM F376, CHEM F266 |
CHEM F341, CHEM F320, CHEM F376/7, CHEM F266 |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F312 LEC + TUT |
ADV MECHANICS OF SOLIDS |
Instructor In-charge (Feedback: 8 /10) |
First Degree |
On-campus Lecture |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 7.24 /10) |
Higher Degree |
On-campus Lecture |
ME F342 LAB |
COMPUTER AIDED DESIGN |
Instructor (Feedback: 8.73 /10) |
First Degree |
On-campus Lab |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F218/312 LEC + TUT |
ADV MECHANICS OF SOLIDS |
Instructor (Feedback: 8.48 /10) |
First Degree |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 7.54 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 8.5 /10) |
Higher Degree |
On-campus Lecture |
ME F313 / ME F315 LAB |
PRODUCTION TECHNIQUES II / Advanced Manufacturing Process |
Instructor (Feedback: 7.81 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.38 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G611 LEC |
COMP AIDED ANAL & DESIGN |
Instructor In-charge (Feedback: 8.65 /10) |
Higher Degree |
On-campus Lecture |
ME F318/342 LAB |
COMPUTER AIDED DESIGN |
Instructor (Feedback: 7.64 /10) |
First Degree |
On-campus Lab |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 9.25 /10) |
Higher Degree CDC+ First Degree Elective |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 7 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.06 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F318 LEC |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.43 /10) |
First Degree CDC |
On-campus Lecture |
ME F318 LAB |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.42 /10) |
First Degree CDC |
On-campus Lab |
MBAZG531 / QMZG531 |
STATISTICAL QUALITY CONTROL |
Instructor In-charge (Feedback: 4.36 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME G512 LEC |
FINITE ELEMENT METHOD |
Instructor In-charge (Feedback: 8.75 /10) |
Higher Degree CDC+ First Degree Elective |
On-campus Lecture |
BITS F110 LAB |
ENGINEERING GRAPHICS |
Instructor (Feedback: 8.32 /10) |
First Degree |
On-campus Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: 4.15 / 5) |
Higher Degree |
WILP |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
ME F318 LEC |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 8.27 /10) |
First Degree CDC |
On-campus Lecture |
ME F318 LAB |
COMPUTER AIDED DESIGN |
Instructor In-charge (Feedback: 7.67 /10) |
First Degree CDC |
On-campus Lab |
BITS F110 LEC+TUT |
ENGINEERING GRAPHICS |
Instructor In-chargeLecture Feedback: 8.45 /10Tutorial Feedback: 9.09 /10 |
First Degree |
On-campus Lecture & Tutorial |
Instructor in charge for two B.E. courses – Engineering Graphics (520 students) and Computer aided design (140 students), one of them is third year CDC and the other is a first year course |
Course code |
Course Name |
Role |
Course Type |
On-campus / WILP |
BITS F110 LEC+TUT |
ENGINEERING GRAPHICS |
Instructor (Feedback: … /10) |
First Degree |
On-campus Lecture + Lab |
DEZG513 |
FINITE ELEMENT METHODS |
Instructor In-charge (Feedback: .../ 5) |
Higher Degree |
WILP |
EEE F111 - Electrical Sciences (IC)
ECE/EEE/INSTR F214 - Electronic Devices (IC)
CS/ECE/EEE/INSTR F215 - Digital Design (IC)
ECE/EEE/INSTR F244 - Microelectronic Circuits (IC)
EEE/INSTR F313 - Analog and Digital VLSI Design
EEE F427 - Fiber Optics and Optoelectronics (IC)
EEE F477 - Modeling of Field Effect in nanodevices (IC)
MEL G631 - Physics and Modeling of Microelectronic Devices (IC)
MEL G621 - VLSI Design (IC)
I designed semester-long courses that are offered to select students on a particular research topic of interest. These are normally offered in the first semester of every academic year. They are intended to introduce undergraduate students to research areas and the latest technology trends.
Nanoelectronics for a post-CMOS era
Semiconductor Memory Device Technology
Neuromorphic Circuit Design
2D Semiconductor based electronics
I post videos on various topics related to electronics on youtube, some related to my classes and some in general.
You can visit the channel here.
CHE F 341 Chemical Engineering Laboratory-II
Graduate Courses
BIO F111 General Biology
BIO F213 Cell Biology
Compulsory Courses
English Language Skills-I
Introductory Psychology
Technical Report Writing
Electives
Cross Cultural Skills
Readings from Drama
Negotiation Skills and Techniques
Current Affairs
Comparative Indian Literature
Public Administration
WILP
Off -Campus Course: Technical Report Writing(both Non/structured )
Power Electronics
Taught WILP-Biocon courses
Teaching as Faculty :
Organization |
Capacity |
Duration |
BITS Pilani, K K Birla Goa Campus |
Associate Professor (Tenured) |
w.e.f March 01, 2023 - present |
BITS Pilani, K K Birla Goa Campus, India |
Assistant Professor (Tenured) |
10 years |
University of Indianapolis, IN |
Assistant Professor |
04 Months |
Community College of Allegheny County, West Mifflin, PA |
Adjunct Assistant Professor |
10 Months |
Point Park University, Pittsburgh, PA, |
Adjunct Assistant Professor |
05 Months |
Ramakrishna Mission Vivekananda Centenary College, Rahara, WB, India |
Lecturer (Tenured) |
2 years, 09 Months |
Total Teaching as Faculty |
|
14 years, 4 months |
Teaching as Graduate Student
Organization |
Capacity |
Duration |
Carnegie Mellon University |
Graduate Student |
7 Years, 2 ½ months |
Jawaharlal Nehru University |
Graduate Student |
06 Months |
Total Teaching as Graduate Student |
|
7 years, 8 ½ months |
Doctoral Students Supervised in BITS GOA
Doctoral Students Currently under Supervision
Co-Supervisor (Joint PhD Supervision)
Graduate
Undergraduate
Carnegie Mellon University, Pittsburgh, PA (Graduate Student Teaching)
Teaching as Junior Lecturer
OFF-CAMPUS (WILP)
IS C462 |
NETWORK PROGRAMMING |
BITS ZC411/IS ZC313 |
OBJECT ORIENTED PROGRAMMING |
CS C313/IS C313 |
OBJECT ORIENTED PROGRAMMING AND DESIGN |
SS G514/SS ZG514 |
OBJECT ORIENTED ANALYSIS AND DESIGN |
CS C372 / IS C362/CS F372 |
OPERATING SYSTEMS |
BITS C342 |
OBJECT ORIENTED PROGRAMMING |
MATH C222/CS/IS F222 |
DISCRETE STRUCTURES FOR COMPUTER SCIENCE |
CS C341/IS C361 |
DATA STRUCTURES AND ALGORITHMS |
CS C471/ IS C471/IS F311 |
COMPUTER GRAPHICS |
IS C351 CS F111 |
COMPUTER ORGANIZATION AND ARCHITECTURE COMPUTER PROGRAMMING |
TA C162 |
COMPUTER PROGRAMMING I |
TA C252 CS G523 EEE G627/SS ZG656 CS G623 |
COMPUTER PROGRAMMING II SOFTWARE FOR EMBEDDED SYSTEMS NETWORKED EMBEDDED APPLICATIONS ADVANCED OPERATING SYSTEMS |
|
|
ES C263 |
MICROPROCESSOR PROGRAMMING (Lab) |
BITS G620 |
PROFESSIONAL PRACTICE I |
BITS G540 |
RESEARCH PRACTICE |
TA C111 |
ENG GRAPHICS (Lab) |
TA C211 |
MEASUREMENT TECHNIQUES I |
|
|
PHY C322 PHY C232 |
SOLID STATE PHYSICS COMPUTATIONAL PHYSICS |
PHY C131 |
PHYSICS I |
PHY C132 |
PHYSICS II |
PHY C391 |
IMA |
PROJECT/ RESEARCH Type |
COMPUTER PROJECTS, STUDY ORIENTED PROJECTS, LAB ORIENTED PROJECTS, INFORMATION SYSTEMS PROJECT, SPECIAL PROJECTS, RESEARCH PRACTICE, THESIS, DISSERTATION |
|
|
|
|
BITS F234 Introduction to Engineering Design (BE First Year Course)
ME G641 Theory of Elasticity and Plasticity (ME Final Year Course)
List of courses taught at BITS Pilani |
|
1. |
Electromagnetic Fields and Waves [CDC for ECE] |
2. |
Electromagnetic Fields and Microwave Engineering [Elective for ECE/EEE/E&I] |
3. |
Electrical Sciences [Fundamental course for first year] |
4. |
Digital Design [CDC for ECE/EEE/E&I] |
5. |
Antenna theory and Design [Elective for ECE/EEE/E&I] |
6. |
Digital Signal Processing [CDC for ECE] |
7. |
Analog Electronics [CDC for ECE/EEE/E&I] |
8. |
Communication Networks [CDC for ECE] |
9. |
RF and Microwave Engineering [CDC for masters in Communication Systems] |
Cell Biology
Cancer Biology
Animal Cell Technology
Experimental Technique
Advance Cell and Molecular Biology
Genetic Engg.
Courses
Courses taught :
Operating Systems
Real-time Systems
Database Systems
Computer Programming
Advanced Operating Systems
Courses Currently teaching:
Operating Systems
Labs conducted:
Database systems
Computer Programming
Operating systems
Real-time systems
Computer Architecture
"The true teachers are those who help us think for ourselves." - Dr. Sarvepalli Radhakrishnan
2024-25 first semester: NLP for third and fourth year undergraduate students.
During the current Semester-I, 2024-25, I continue to teach the first degree course “BITS F462 Renewable Energy”, to students from various First Degree Programs of the Institute, Viz. AA, A3, A4, A8.
During the past semesters during Academic Years from 2000-2001 to 2023-2024, courses taught include discipline elective courses and, compulsory discipline courses, as follows:
Discipline Elective Courses:
Compulsory Discipline Courses:
All Courses Taught/Teaching
FIRST DEGREE (UNDERGRADUATE) COURSES
HIGHER DEGREE (POSTGRADUATE) COURSES
PRE-PH.D. COURSES (OFFERED AS PART OF PH.D. COURSE WORK)
PH.D. COURSES
COURSES TAUGHT
FIRST DEGREE COURSES
HIGHER DEGREE COURSES
PROJECT BASED COURSES
1. Chemical Engg. Lab-I, CHEF312 , FD 2. Kinetics & Reactor Design, CHEF311 Tut, FD 3. Chemical Engg. Lab-II, CHEF312 4. Chemical Process Optimization, CHEG558, HD 5. Environmental Process Engineering, EEZG622, HD (WILP) 6. Process Control & Instrumentation, PEZC453, FD (WILP)
|
Current Semester I (2024-2025)
Courses taught
ECON F241: ECONOMETRIC METHODS
ECON F242: MICROECONOMICS
ECON F343: ECONOMIC ANALYSIS OF PUBLIC POLICY
BITS F314: GAME THEORY AND ITS APPLICATIONS
ECON F213: MATHEMATICAL AND STATISTICAL METHODS
Parallel Computing
Lecture M - W - F (3:00 PM to 3:50 P.M) in C-401
2023-2024 Semester-I Parallel C0mputing
2023-2024 Semester-I Computer Organization & Architecture (WILP)
2023-2024 Semester-II Microprocessor & Interfacing
ECON F211: PRINCIPLES OF ECONOMICS
ECON F242: MICROECONOMICS
ECON F311: INTERNATIONAL ECONOMICS
ECON F242: MATHEMATICAL AND STATISTICAL METHODS
Courses Taught/Teaching in BITS
Courses Designed
Courses Developed
Courses Taught in Institutions prior to BITS
CHEM C141 Chemistry I
CHEM C142 Chemistry II
TA C211 Measurement Techniques I
CHEM C391 Instrumental Methods of Analysis
CHEM C232 Chemistry of Organic Compounds
CHEM C331 Structure & Reactivity of Organic Compounds
CHEM C332 Synthetic Organic Chemistry
CHEM F242 Chemical experimentation I
CHEM F110 Chemistry Laboratory
CHEM F111 General Chemistry
CHEM F243 Organic Chemistry II
CHEM F311 Organic Chemistry III
CHEM F342 Organic Chemistry IV
CHEM F414 Bio and Chemical Sensors
CHEM G531 Recent Advances in Chemistry
CHEM F313 Instrumental Methods of Analysis
Fundamentals of Finance & Accounts
Financial Management (On-Campus & WILP)
Security Analysis & Portfolio Management
Business Analysis & Valuation
Behavioral Finance (WILP)
Financial & Management Accounting (WILP)
PHY F110 |
Physics Laboratory |
PHY F111 |
Mechanics, Oscillations and Waves |
PHY F212 |
Electromagnetic Theory 1 |
ES C242 |
Structure and Properties of Materials |
PHY F211 |
Classical Mechanics |
PHY F214 |
Electricity, Magnetism and Optics Laboratory |
PHY F244 |
Modern Physics Laboratory |
PHY F312 |
Statistical Mechanics |
PHY F341 |
Solid State Physics |
PHY F344 |
Advanced Physics Laboratory |
BITS F316 |
Nonlinear Dynamics and Chaos |
BITS F416 |
Introduction to Nanoscience |
BITS F417 |
Microfluidics and its applications |
PHY F414 |
Physics of Advanced Materials |
PHY F266 |
Study Project |
PHY F366/ PHY F367 |
Laboratory Project |
PHY F376/ PHY F377 |
Design Project |
BITS F423T |
Thesis |
BITS G641 |
Modern Experimental Methods 1 |
BITS G629T |
Dissertation (M.E) |
BITS G661 |
Research Methodology |
TA C111 & BITS F110 Engineering Graphics
ME C382 Computer Aided Design
ME F432 Computer Aided Manufacturing
ME G611 Computer Aided Analysis and Design
TA C222 Measurement Techniques – II
TA C112 Workshop Practice
POWJS ZC481 & POWES ZC481 Plant layout and Design (WILP)
ET ZC235 Manufacturing Processes (WILP)
DE ZG 515 Finite Element Methods (WILP)
ME C211 Applied thermodynamics (Tutorial)
ME C331 Transport Phenomena – II (Tutorial)
GS F223: Introduction to Mass Communication
Birla Institute of Technology and Science, Pilani - Hyderabad campus is one of the premier technical and science institutes of higher learning in India.
The sprawling campus is built amidst lush greenery spreading over 200 acres of land at Jawahar Nagar, Shameerpet, Hyderabad. Surrounded by natural beauty, the campus is about 70 kilometers away from Rajiv Gandhi International Airport, Shamshabad and 27 kilometers from Secunderabad railway station.
Technical Institute in non-Govt. category by India Today
In Pharmacy Category by the QS India Ranking
completing in the service of nation
University Graduate QS India Employability Ranking 2022 by
startups 14 Unicorn & 01 Decacorn
of DST Grant on NMICPS
Engaged to create vibrant Entrepreneurship & Innovation eco-system
The newest of the four BITS Pilani campuses, the Hyderabad campus currently houses 12 departments spanning the gamut of pure science and applied science. Each of these departments is notable for their excellent faculty, the curriculum offered, the research it conducts and the number of sponsored projects the department has won.
In any higher education system, research plays a crucial and integral role. Here at BITS Pilani, Hyderabad Campus, we actively encourage research among both staff and students. The Institute accords adequate importance and support to applied research besides basic research, which forms the basis of all applied research.
Our centers are involved in varied activities ranging from Software Development and Robotics to Women's studies and Desert Development Technologies.
Major cleanroom facilities. BITS Pilani Hyderabad campus established state of the art facilities for
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"The E-CELL at BITS Pilani, Hyderabad Campus is aimed at fostering entrepreneurial skills among the
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I-cell is to promote and support innovations across the spectrum of science and technology with appl
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BITS Pilani WILP Convocation 2024
24 August, 2024International Symposium cum Workshop
11 July, 2024An International Conference on Sustainable Urban Water Management for Fast Growing Cities
6 April, 2024National Symposium on Current
Trends in Pharmaceutical Sciences
(CTPS) – 2024
International Women’s Day Celebrations – 2024
6 March, 20242024 Batch Reunion for Batches of 2012 & 2013
11 January, 2024Overseas Student Doctoral Programme Academic Year 2023-24
30 November, 2023The Indian Mathematical Society (IMS)-2023
19 July, 2023Learn more about BITS-RMIT Higher Education Academy
9 June, 2023BITS Pilani invites applications to register for PhD First Semester, 2023–2024.
11 May, 2023Bachelor of Science in Computer Science
20 April, 2023About or Nearly 600 students from the Hyderabad campus sit for placements every semester, of these almost 100% succeed in securing a job.
Birla Institute of Technology & Science, Pilani
Hyderabad Campus
Jawahar Nagar, Kapra Mandal
Medchal District - 500 078
Telangana, India
I. Courses Taught at BITS Pilani, Hyderabad Campus
(1) Signals and Systems (BE 2nd Year ECE/EEE/INSTR, 1 time, Feedback-9.41/10).
(2) Neural Network and Fuzzy Logic (BE 3rd Year ECE/EIE/EEE/CSE/IT, 5 times, average Feedback-9/10).
(3) Introduction to Artificial Neural Network (ME 1st year Communication/ Embedded system, 2 times, Feedback-9.68/10).
(4) Digital Signal Processing (BE, ECE/EIE/EEE students, 1 time)
1. Signals and system using MATLAB (2 times, Feedback-9.09/10).
2. Neural Network and Deep Learning using MATLAB and Python (Feedback-7.46/10).
III. Courses Taught at Previous University
(1) Introduction to Information Theory (EET3061, BTech 7th Sem, ECE)
(2) Introduction to MATLAB (MTH 3006, BTech 4th Sem, EEE and CSE)
IV. Teaching Assistant in Courses at IIT Guwahati
(1) Biomedical Signal Processing (EE 626, Course Instructor: Prof. Samarendra Dandapat, Branches: BTech 7th Sem, MTech 1st sem, PhD)
(2) Linear Algebra and Optimization (EE 504, Course Instructor: Prof. Samarendra Dandapat, Branches: MTech 1st sem, PhD)
(3) Probability and random Processes (EE 506, Course Instructor: Prof. Samarendra Dandapat, Branches: MTech 1st sem, PhD)
Year 2024-2025
FD Courses (Regular Term)
S. No. |
Course Title and No. |
Program |
1 |
PHARMACEUTICAL UNIT OPERATIONS – I (BS PS ZC311) |
WILP |
2 |
DOSAGE FORM DESIGN (POMZG512) |
WILP |
3 |
Applied Industrial Microbiology (2022-CPBIOCON) |
WILP |
Courses being taught at BITS Pilani, Hyderabad campus (Since August 2017):
Sl.No |
Course name |
Course type |
1 |
General Biology (BIO F111) |
First degree (FD) |
2 |
Biology Laboratory (BIO F110) |
First degree (FD) |
3 |
Genetics (BIO F243) |
First degree (FD) |
4 |
Instrumental Methods of Analysis (BIO F244) |
First degree (FD) |
5 |
Plant Physiology (BIO F312) |
First degree (FD) |
6 |
Genomics (BIOT F346) |
First degree (FD) |
7 |
Project-oriented courses (LOP- BIO F366, SOP-BIO F266, DOP-BIO F376) |
First degree (FD) |
8 |
Molecular Mechanisms of Gene expression (BIO G512) |
Higher degree (HD) |
9 |
Plant Biotechnology (BIO G643) |
Higher degree (HD) |
10 |
Study in Advanced Topics (SAT) (BITS G513) |
Higher degree (HD) |
11 |
WILP Online Course as part of B.Sc. Computer Science: General Biology |
First Degree (Online course offered through Coursera) |
12 |
WILP course: Advances in Industrial Microbiology (AIM) |
Course taught in collaboration with BIOCON |
Sl.No |
Course name |
Role |
Course type: Designed for |
1 |
Molecular Genetics 605-Molecular Genetics I |
Recitation Instructor |
Advanced: Master’s and doctoral students |
2 |
Molecular Genetics 606-Molecular Genetics II |
Recitation Instructor |
Advanced: Master’s and doctoral students |
3 |
Plant Cellular and Molecular Biology (PCMB) 300 |
Lab and Recitation Instructor |
Advanced: undergraduate Biology majors |
4 |
Biology 114: Form, Function, Diversity, and Ecology |
Lab and Recitation Instructor |
Advanced: undergraduate Biology mjaors |
5 |
Biology 113: Energy Transformation and Development |
Lab and Recitation Instructor |
Advanced: undergraduate Biology mjaors |
6 |
PCMB 102: Plants, People and the Environment I |
Instructor |
Introductory: undergraduate non-Biology majors |
7 |
PCMB 101: Introduction to Plant Biology I: Plants, People and the Environment II |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
8 |
Biology 101: Introduction to Biology |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
9 |
Biology 102: Human Biology – A Case Studies Approach |
Lab and Recitation Instructor |
Introductory: undergraduate non-Biology majors |
10 |
Biology102: Human Biology (Biology in films) |
Recitation Instructor |
Introductory: undergraduate non-Biology majors |
Mentoring Experience at the Ohio State University (OSU) and Indiana University (IU), USA
· Mentored new teaching associates at the Center for Life Sciences Education, OSU.
· Mentored undergraduate students and international visiting scientists in research at OSU and IU (USA).
· Served as Orientation Facilitator on two different topics (Teaching & Learning; International Teaching Associates panel) during 2009 orientation for new Teaching Associates and faculty members at OSU (USA) organized by UCAT (University Center for Advancement of Teaching)
Qualification in National Eligibility Tests
· National Eligibility Test for Lectureship in the subject of Life Sciences conducted by Council of Scientific & Industrial Research (CSIR), New Delhi, India, during 1999.
· National Eligibility Test for Lectureship/Assistant Professorship in Genetics (1999), conducted by Agricultural Scientists Recruitment Board (ASRB), New Delhi.
Transportation Planning: CE G565
Transportation Data Analytics: CE G572
Public Transportation: CE G566
Freight Transportation: CE G575
Highway Design: CE G535
Traffic Engineering and Safety: TEPWG ZG536
Highway Engineering Tutorial: CE G244
Highway Engineering Lab: CE G244
Code |
Course Name |
UG/PG |
Year |
Institute
|
MEC 208 |
Engineering Materials (Lecture) [Credit-5] |
UG |
2010, 2011 |
LPU |
MEC 532 |
Advanced Composite Materials (Lecture) [Credit-3] |
PG |
2016 |
LPU |
MEC 483 |
Mechanical Behavior of Materials (Lecture) [Credit-3] |
PG |
2016 |
LPU |
DE G513 |
Tribology (Lecture + Laboratory) [Credit-5] |
PG |
2020, 2021 |
BITS, HYD |
MST G522 |
Advanced Composite Materials (Laboratory) [Credit-2] |
PG |
2019 |
BITS, HYD |
BITS F412 |
Practice School |
UG |
2019 |
BITS, HYD |
DE G522 |
Design Project (Research) [Credit-5] |
PG |
2020 |
BITS, HYD |
BITS F110 |
Engineering Graphics (Laboratory + Tutorial) [Credit-2] |
UG |
2019, 2020, 2021 |
BITS, HYD |
DE G631 |
Materials Technology & Testing (Lecture + Laboratory) [Credit-5] |
PG |
2019, 2020, 2021, 2022 |
BITS, HYD |
ME G641 |
Theory of Elasticity & Plasticity (Laboratory) [Credit-2] |
PG |
2019 |
BITS, HYD |
ETZ C416/ PEZ C413 |
Production Planning & Control (WILP - Lecture) [Credit-3] |
Working Professional |
2020 |
BITS, HYD |
DEZ G663 |
Concurrent Engineering (Lecture + Laboratory) [Credit-5] |
PG |
2021, 2022 |
BITS, HYD |
DEZ C663/ QMZ G663 |
Concurrent Engineering (WILP - Lecture) [Credit-3] |
Working Professional |
2021 |
BITS, HYD |
ENGG ZC332/ PEZ C234 |
Engineering Materials (WILP - Lecture) [Credit-3] |
Working Professional |
2022 |
BITS, HYD |
ME F216 |
Materials Science and Engineering (Laboratory) [Credit-1] |
UG |
2022 |
BITS, HYD |
ME F112 |
Workshop Practice (Laboratory) [Credit-2] |
UG |
2022 |
BITS, HYD |
ME F320
|
Engineering Optimization (Tutorial) [Credit-1] |
UG |
2022 |
BITS, HYD |
Teaching Experience (F – FALL, S – SPRING)
Coursework |
||
Associate Professor, BITS-Pilani, Hyderabad |
||
2021 - |
Courses Proposed CE GXXX: Nondestructive Evaluation of Structures CE GXXX: Climate Change Adaptation in Structural Engineering Graduate Courses CE G562: Advanced Concrete Technology (F24, S24, F23, F21) Undergraduate Courses CE F320: Design of Reinforced Concrete (F24, F23, F22, S22, F21) CE F416: Computer Applications in Civil Engineering (S22, S23) CE F242: Construction Planning and Technology (S24) BITS F110: Engineering Graphics Laboratory (S22, S23) |
|
Assistant Professor, BITS-Pilani, Hyderabad |
||
2015 - 2021 |
Courses Developed CE F416: Computer Applications in Civil Engineering CE G562: Advanced Concrete Technology |
|
|
Graduate Courses Taught CE G617: Advanced Structural Analysis (F20, F19, F18, F17, F16) CE G562: Advanced Concrete Technology (F23, S21, S20, F19, F18, F17) |
|
|
Undergraduate Courses Taught CE F320: Design of Reinforced Concrete (F23, F22, S22, F21, F20, F19) CE F416: Computer Applications in Civil Engineering (S22, S21, S20, S19, S18, S17, S16) BITS F110: Engineering Graphics Laboratory (F21, F20, S19, S18, S16) CE F230: Civil Engineering Materials Laboratory (F18) MATH F113: Probability and Statistics (S17) CE F311: Design of Reinforced Concrete Structures (F16, F15)
|
CS F211 Data Structures and Algorithms (Tutorial & Practical )
CS F363 Compiler Construction (Practical)
IS ZC363 Data Structures and Algorithms (WILP Course)
CS G526 Advanced Algorithms and Complexity (IC)
CS F214 Logic in Computer Science (IC)
BITS F232 Foundations of Data Structures (IC)
CS F222 Discrete Structures for Computer Science (Tutorial)
CS F351 Theory of Computation (Tutorial)
As an instructor, I have achieved the following:
2017-2018: SemI (Aug 2017-Dec 2017)
BIO F212 : MICROBIOLOGY + IC + Lec (Full) + Lab (Co-taught with co-instructors) + 1 Tut (Full)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Course has >500 students]
2017-2018: Sem II (Jan 2018-May2018)
WILP: BITS BIOCON AIM 3 : Pharmaceutical Microbiology (Co-Taught)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Course has >500 students]
BIO F342 : IMMUNOLOGY- IC + Lec (Co-Taught; Half course) + Tut (Co-Taught; Half course)
BIO G523 : ADV & APPLIED MICROBIO + Lec (Co-Taught; Half Course)
2018-2019: Sem I (Aug 2018- Dec 2018)
WILP: BITS BIOCON AIM4 : Pharmaceutical Microbiology (Co-Taught)
BIO F212 : MICROBIOLOGY IC + Lec (Full) + Lab + Tut (Full)
BIO F211 : BIOLOGICAL CHEMISTRY + Lec (Co-Taught; Half Course) + Tut (Co-Taught; Half Course)
BIO F266 : STUDY PROJECT - IC
BIO F366 : LABORATORY PROJECT - IC
BIO F367 : LABORATORY PROJECT - IC
BIO F376 : DESIGN PROJECT - IC
BIO F377 : DESIGN PROJECT - IC
2018-2019 : Sem II (Jan 2018-May 2018)
BIO F111 : GENERAL BIOLOGY + Lec (Co-Taught; Half Course) + 1 Tut (Full) [Course has >500 students]
BIO G523 : ADV & APPLIED MICROBIO + Lec (Co-Taught; Half Course)
2019-2020 : Sem I (Aug 2019-Dec 2019)
BIO F110 : BIOLOGY LABORATORY + IC + 1 Section (Full) [Course has >500 students]
BITS F225 : ENVIRONMENTAL STUDIES + IC + Lec (Co-taught; ⅓ course)[Course has >500 students]
BIO F212 : MICROBIOLOGY + IC + Lec (Full course) + Lab (Co-taught with co-instructors)
2019-20 : Sem II (Jan 2019-May 2019)
WILP: SSTM ZG512 : Sanitation and Public Health (Co-taught)
BIO F111 : GENERAL BIOLOGY 1 Tut (Full) [Multi-section course has >500 students]
BIO F244 : INSTRU METHODS OF ANAL (Lab) (Co-taught)
BITS F467 : BIOETHICS & BIOSAFETY + IC + (Co-taught, half course)
2020-21: Sem I (Aug 2020-Dec 2020)
BIO F211 : BIOLOGICAL CHEMISTRY + IC + Lec (Full course) + Tut (Co-taught with co-instructor)
BIO G514 : MOLECULAR IMMUNOLOGY + Lec (Co-taught, half course)
2020-21: Sem II (Jan 2021-May2021)
BIO F111 : GENERAL BIOLOGY + 1 Tut (Full) [Multi-section course has >500 students]
BIO F212 : MICROBIOLOGY + IC + Lec (Full course) + Lab (Co-taught with co-instructors)
2021-2022: Sem I (Aug 2021-Dec 2021)
BIO F212 : MICROBIOLOGY + IC + Lec (Full) + Lab (Full with co-instructors)
BITSF467: BIOETHICS & BIOSAFETY + IC + Lect (Half course, co-taught)
2021-2022 : Sem II (Jan - May 2022)
BIO G523 : ADV & APPLIED MICROBIO + Lec (Half course, co-taught)
BIO F111 : GENERAL BIOLOGY Part 1 - IC [Multi-section >250 Students]
2021-2022 Sem II (May-August 2022)
BIO F111 : GENERAL BIOLOGY Part 2 - IC + Lec (Half course) + 1 Tut (Full) [Multi-section >300 students]
2021-2022: Summer Term (May - Aug 2022)
BITS F467 : BIOETHICS & BIOSAFETY + IC + Lec (Full course)
2022-2023 : Sem I (Aug 2022-Dec 2022)
BIO F212 : MICROBIOLOGY - IC + Lec (Half course, co-taught) + Lab (Full with co-instructors)
2022-2023: Sem II (Jan 2023-May 2023)
BIO G523 : ADV & APPLIED MICROBIO +IC + Lec (Half course, co-taught) + Lab (Full with co-instructors)
2022-2023 : Sem II (March 2023-July 2023)
BIO F111 : GENERAL BIOLOGY - 1 Tut (Full) [Multi-section >500 students]
The following short term courses were designed and are being taught to executives of Sun Pharmaceutical Industries Ltd.:
Projects/First degree theses/ Higher degree dissertations guided/guiding
· More than 60 projects/theses/Dissertations covering various areas of research viz. Energy efficiency in process industries, application of multi – criteria analyses based decision making models using fuzzy logic principles, use of geographic information systems for the estimation of energy demand for solar energy utilization, techno – economic analysis of solar hot water systems; Heat transfer; Refrigeration and air conditioning; Web based survey and analysis of survey data; Automation of Practice school division of BITS, Pilani; Software developmental projects for computerization of various activities of Academic Registration and Counselling Division (ARCD) of BITS, Pilani – Hyderabad Campus (please see “Academic administration activities” for more details).
· First-degree thesis in the area of modifications of heat and momentum transfer analyses of liquid flat plate collectors.
· Higher Degree dissertation in the area of automation of Practice School Division.
Specific accomplishments/Distinctions
· Rated as one of the excellent teachers of Thermal Engineering courses at BITS, Pilani, Dubai and Hyderabad Campuses
· Delivered a lecture on Thermodynamics in the presence of Dr. Abdul Kalam, Ex- President of Republic of India during his visit to BITS, Pilani Dubai campus
Lab establishment activities
As a faculty member of Thermal Engineering, established
· Three laboratories viz. Transport Phenomena, Prime Movers & Fluid Machines and Renewable energy laboratories at BITS, Pilani – Hyderabad Campus.
· Two laboratories viz. Transport Phenomena and Prime Movers & Fluid Machines at BITS Pilani Dubai campus starting from the identification of vendors to inspection to the commissioning of the equipment.
· different thermal engineering/energy related equipment for Thermal engineering laboratories at BITS, Pilani
Equipment procured include various equipment to study thermo-physical properties of materials, convective heat and mass transport equipment, heat exchange equipment, various fluid flow measuring devices, various types of Internal combustion engines, turbines, compressors, pumps etc. along with test rigs and data acquisition systems.
Post Graduate level:
Graduate level:
Off campus courses:
Fall Semester 2024-2025
ECE F311: Communication Systems
EEE F311: Communication Systems
ECE F314: Electromagnetic Fields & Microwave Engineering
1. Chemical Process Technology - CHE F419 (4 Semesters)
2. Thermodynamics Lecture &Tutorials - BITS F111 ( 4 Semesters)
3. Corrosion Engineering - CHE F433 (5 Semesters )
4. Materials Science & Engineering / Engineering Materials (4 Semesters)
5. Measurement Techniques 2 lab - TA C222 (3 Semesters)
6. Separation Processes II - CHE F313 (4 Semesters)
7. Fluid Mechanics - CHE F212 (3 Semesters)
8. Environmental Pollution Control - CHE F411 (3 Semesters)
9. Composite Materials and Design - ME F452 / Advanced Composites - DEZG 526 (2 Semesters) (Semester-1/2020-21: 8 hrs video recording for WILP)
10. Chemical Engineering Laboratory 2 - CHE F341 (3 Semesters)
11. Materials Processing - MST F332 (4 Semesters)
12. Introduction to Nanoscience & Technology - CHE G528 (1 Semester)
13. Paper and Pulp Technology - CHE G529 (1 Semester)
14. Chemical Engineering Laboratory 1 - CHE F312 (2 Semesters)
15. Process Equipment Design - CHE F412 ( 6 semesters including WILP)
16. Biological treatment Principles and Design for wastewater systems (1 Semester)
17. Advances in Materials, Composites and Plastics-AEZG612 (1 Semester)
18. Research Methodology - BITS G661 ( 2 Semesters)
19. Environmental Studies - BITS F225 (2 Semesters)
2023-2024
2024-2025
2007-2010 : BITS Pilani Pilani Campus
2010- ........ : BITS Pilani Hyderabad Campus
Courses Taught in Second Semester 2020-2021 at BITS Pilani, Dubai Campus:
1) Manufacturing Processes (First degree course)
2) Workshop Practices (First degree course)
Electronic Instruments & Instrumentation Technology (4h of labs per week)
COURSES Taken in BITS
Following different courses taught/currently teaching (including WILP)
On-campus
Thermodynamics (BITS F111)
Heat Transfer Operation lab (CHE C351)
Petroleum Ref & Petrochemicals (CHE G512)
Measurement Tech. II (TA C222)
Mass Transfer Operation (CHE C361)
Control system (AAOC C321)
Kinetics reactor design ( CHE F311 & CHE C312)
Process dynamics and Control (CHE F342)
Environmental Pollution Control (CHE F411)
Chemical Engg Lab-II (CHE F341)
Chemical engineering thermodynamics (CHE F213)
Petroleum refinery Engineering (CHE G617)
Research methodology-1 (BITS G661)
Engineering chemistry (CHE F214)
Study oriented project CHE F266/F267
Lab oriented Project CHE F366/367
Environmental studies (BITS F225)
Separation process -II (CHE F313)
Reaction Engineering (CHE G641)
Off campus (WILP)
Environmental Pollution Control (POWAB ZC411)
Transport Phenomena (PERL ZC316)
Environmental Pollution Control (PERL ZC361)
Fundamental of transport process (PE ZC318)
EEE G626: Hardware-Software Codesign (MSc Embedded Systems)
This is a hands on course focusing on Xilinx Zynq SoC platform-based system design. Students are expected to have background in Verilog HDL and C programming language. Detailed couse handout can be found Here
Lecture 1 : Introduction [Slides]
Lecture 2 : Overview [Slides]
In Semester 1, 2024-25, I am teaching the following two courses: (i) Quantum Mechanics for Engineers(PHYF345)-an undergraduate course and (ii) Quantum Theory & Applications(PHYG514)- a PhD level course.
The set of courses that I taught in BITS: I have taught the following courses: (i)Mechanics, Oscillations & Waves, (ii) Electrodynamics, (iii) Classical Mechanics,
(iv)Quantum Mechanics I & II, (v) Modern Physics, (vi)Statistical Mechanics, (vii)Mathematics III (Differential Equations and it's application),
(vii) Nuclear & Particle Physics, (viii) Theory of Relativity, (ix)Particle Physics, (x) Introduction to Astronomy & Astrophysics,
(xi)General Theory of Relativity & Cosmology, (xii) Physics Laboratory I, (Xiii) Advanced Physics Lab.
Text Books:
TB1: Introduction to Quantum Mechanics, D. J. Griffith, 2nd Edition, Pearson Education.
This course aims to introduce the basic concepts of General Theory of Relativity and it's application in Cosmology i.e. to know the behavior of the universe at large scale. After reviewing basic concepts of special relativity (in 4 vector formalism), the notion of tensor, covariant derivative, geodesics, curvature tensor, Ricci tensor, Ricci scalar, Einstein tensor and hence the Einstein equations will be derived. The Schwarzschild black hole solution of the Einstein equation will be discussed, which will be followed by Physics near the massive objects. The FRW cosmology will be discussed at a length and finally inflationary cosmology will be introduced in brief.
Text Books:
TB1: A short course in General Theory of Relativity, Foster and Nightingale (Springer).
General Chemistry (CHEM F110)
Environmental Science (BITS F225)
First year practical course (CHEM F111)
Instrumental Methods of Analysis (CHEM F313)
Inorganic Chemistry II (CHEM F 241)
Instrumental Analysis lab course (CHEM F314)
Physical Methods in Chemistry (CHEM G554)
Advanced Inorganic Chemistry (CHEM G552)
Courses:
Most of these courses have been conducted multiple times over the past nine years. The primary objective is to engage learners and facilitate them to find their motivation in each course in a practical, real world based and personalized manner. The courses should add some significant meaning to the learners in terms of skills and comprehension of the workings of the world (both experimental and cerebral are of equal importance, learn by doing is the motto). The learners are encouraged to integrate science and engineering, academic and real world and experimental and simulation techniques.
Engineering Chemistry (second year core course)
Materials Science and Engineering (second year core course)
Materials Characterization (third year Materials Science Minor Program core course)
Materials Processing (third year Materials Science Minor Program core course)
Chemical Engineering Laboratory - I (third year core course)
Chemical Engineering Laboratory - II (third year core course)
Separation Process (third year core course)
Process Control and Dynamics (third year core course)
Chemical Process Technology (elective)
Process plant Safety (elective)
Polymer Technology (elective)
Intro to Nanoscience and Nanotechnology (elective)
Thermodynamics (institute wide course)
Environmental Studies (institute wide course)
Research Methodology (first year Masters core course)
Engineering Materials (non-specific WILP course)
Certification program/courses conducted in Instrumentation, Sensors and Controls at Grasim Industries, Nagda
Laboratory Oriented Project Course:
Topics include Polymerization kinetics, Investigation of polymerization induced phase separation, Development of value-added products from biomaterials and Development of biomaterial formulations for microencapsulation applications by using electrospinning, development of sizing agents for carbon fiber composites, materials characterization to investigate and enhance the performance of phenolic resin based composites and relaxation behavior studies of solid polymer electrolytes in lithium ion batteries) and 3D printing of biopolymers for biomedical applications.
Study Oriented Project Course:
Topics include Development and characterization of biocomposites, Thermodynamic studies of protein and pharmaceutical interactions, Carbon nanotubes for flow sensor applications, Relaxational behavior of complex systems, Amorphization of pharmaceuticals and Development and interfacial characterization of carbon fiber based composites)
Guest lectures provided for course titled Bio-conversion Technology and offered by Dept. of Biological Sciences
Mentoring
BIO F110 BIOLOGY LABORATORY - Instructor-in-charge
BIOT F346 GENOMICS - Instructor-in-charge
BIO F111 GENERAL BIOLOGY - Instructor & Lecturer
BIO F110 BIOLOGY LABORATORY - Instructor
BIO G510 APPL OF COMP AND STATS IN BIOLOGY - Instructor-in-charge
BIO F110 GENERAL BIOLOGY - Instructor
BIOT F346 GENOMICS - Instructor-in-charge
2010-2011 1st: Chem C141, Chemistry 1, TAC211, Measurement Technique 1
2010-2011 2nd:ESGC242, Structure-properties of materials , Chem C 411, Chemical Experimentation
2011-2012 1st:Chem C141, Chemistry 1, TAC211, Measurement Technique
2011-2012 2nd: ESGC242, Structure-properties of materials, Chem C 411, Chemical Experimentation
2012-2013 1st Chem F214, Inorganic Chemistry 1, Chem F111, General Chemistry Chem F110, Chemistry Lab
2012-2013 2nd ChemC411, Chemical Experimentation, Chem F 110, Chemistry Lab.
2013-14 1st ChemF214, Inorganic Chemistry 1, Chem F 110, Chemistry Lab.
2013-14 2nd Chem F 343, Inorganic Chemistry III, ChemC411, Chemical Experimentation(II), Chem F325, Polymer Chemistry.
2014-15 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F 110, Chemistry Lab.
2014-15 2nd ChemC411, Chemical Experimentation (II) , Chem F 325, Polymer Chemistry, Chem F 343, Inorganic Chemistry III.
2015-2016 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV.
2015-16 2nd ChemC411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2016-2017 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV
2016-17 2nd Chem C 411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2017-2018 1st ChemF214, Inorganic Chemistry 1, Chem F326, Solid State Chemistry, Chem F312, Physical Chemistry IV
2017-2018 2nd Chem C411, Chemical Experimentation (II) , Chem F 343, Inorganic Chemistry III
2018-2019 1st ChemF214, Inorganic Chemistry 1, Chem F312, Physical Chemistry IV, Chem F 110, Chemistry Lab.
2018-2019 2nd Chem F 110, Chemistry Lab. , Chem F 343, Inorganic Chemistry III.
2018-2019 Summer(May-2019-July-2020): Practice School I Faculty (Area: bio-medical/Bio-pharma)
2019-2020 1st Chem F 214, Inorganic Chemistry I, Chem F 110, Chemistry Lab., Chem F 111, General Chemistry
2019-2020 2nd Chem F 110, Chemistry Lab., Chem F 343, Inorganic Chemistry III.
2020-2021 1st Chem F214, Inorganic Chemistry I, Chem F 110, Chemistry Lab., Chem F 111, General Chemistry
2020-2021 2nd Chem F 110, Chemistry Lab., Chem F 343, Inorganic Chemistry III, Chem F 411, Chemical Experimentation, II
2021-2022 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry, Oct. 2021-Jan 2022
2021-2022 2nd Chem F 110, Chemistry Lab. (SPOT ADM May-Aug. 2022, Chem F 343, Inorganic Chemistry III, Chem F 411, Chemical
Experimentation, II, Chem F 111,General Chemistry (SPOT ADM Jan 29-April 30).
2022-2023 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry, (Oct. 2022-Feb 2023)
2022-2023 2nd Chem F 110, Chemistry Lab. (March -July 2023, Chem F 326, Solid State Chemistry.
2023-2024 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry.
2023-2024 2nd Chem F 110, Chemistry Laboratory, Chem F 326, Solid State Chemistry.
Summer Term, 2023-2024, Chem F 366, Laboratory Project.
2024-2025 1st Chem F214, Inorganic Chemistry I, Chem F 111, General Chemistry.
BE and M. Sc. (3-4 units): Lab. Project, Study Project, Designed Project, Special Project
Pre-Phd courses (5-6 level, 5 unit credit): (1) Research Project(I) (Topics/Titles: Synthesis, advanced characterization
and properties study, Advances in analytical chemistry, Application of chemical and Instrumental Techniques for materials synthesis.
(at advanced level)), (2) Research Project (II) (Topic: Fine particle magnetism including structure properties correlation),
(3) Physical Methods in Chemistry.
[*(2006-2010):Domain of Teaching Involvements in courses (Old Curriculum): CHEM I, CHEM II, MT I, MT II, SPM, CE II, CPL
along with project courses (SOP, LOP, COP)]
2021-2022 1st: Design Projects (# students 7), Study Project (# student 1)
2021-2022 2nd: Lab. Project (# students 1), Study Project (# students 3)
Physical Methods in Chemistry, Chem G 554 (Pre-Phd course)
2022-2023 1st: Design Projects (# students 3), Study Project (# student 3)
2022-2023 2nd: Lab. Project (# students 1), Study Project (# students 5)
2023-2024 1st: Lab. Project (# students 3), Study Project (# students 1), Design Project (# students 2)
2023-2024 2nd: Lab. Project (# students 2), Study Project (# students 1), Design Project (# student 2)
Research Projects - I ( BITS G 529) (Pre-PhD), Application of Chemical and Instrumental
Analytical Techniques for materials Synthesis (# students 1)
2024-2025 1st: Lab. Project (# students 1), Study Project (# students 1)
Research Projects - II ( BITS G 539) (Pre-PhD), Structural Characterization and nanomagnetism in
Solid State Materials (# students 1)
At BITS Pilani, Goa Campus
* This is a multi-section course.
At IISER Tirupati
At IISER Pune (as a TA during my PhD)
Verilog HDL with Quartus and Modelsim
In this playlist we go through the fundamentals of Verilog HDL and modelling of basic digital circuit elements using Verilog. The fundamental takeaway is although Verilog syntax looks like other programming languages (such as C) and it is a Turing complete language, it is more of a hardware description language. HDLs were initially introduced more as a way for efficient documentation and simulation and was later adopted for synthesis also. As a hardware designer, the structure and operation of the circuit should be in your mind and you are describing it in Verilog. It is then up to the EDA tools to interpret your description and implement using a target technology (such as FPGA). The main challenge here is to properly and efficiently describe the hardware. For demonstration, we use Modelsim simulator and Intel Quartus but the concept and code can be used with any HDL EDA tools.
Reconfigurable Embedded Systems with Xilinx Zynq APSoC
This playlist provides sample applications implemented on Xilinx Zynq APSoC platform through Xilinx Vivado design suite. Most of the examples follow hardware-software codesign approach and is the base for my hardware-software co-design course. Viewers are expected to be conversant with Verilog HDL and C programming language to follow the contents.
LPC2378 Embedded C Programming with Keil
This playlist contains sample embedded programming for LPC2378 microcontroller. These videos are recorded as part of the Embedded Systems Design Course offered at BITS Pilani, Goa (EEE G512).
Internet of Things (IoT) with Amazon AWS
This playlist introduces Amazon AWS IoT core platform. Since the videos were created a few years back, some of the steps might have changed in the latest AWS platform.
Professional Ethics, Symbolic Logic, Logic in Computer Science, Introductory Philosophy, Theoretical Approaches to Liberal Studies, Research Methodology, Research Ethics, and Introduction to Contemporary Art
Prof. Sachin Waigaonkar is engaged in teaching a diverse array of courses at the university, encompassing both on-campus classes and Work Integrated Learning Programs. His expertise lies in the fields of Manufacturing, Quality Control, and the Design and Manufacturing of advanced materials, particularly Polymer Composites. Some of the courses he instructs include:
No of Students | ||||||||||||
Course Name | Course ID | 2018 | 2019 | 2020 | 2021 | 2022 | 2023 | 2024 | ||||
Sem II | Sem I | Sem II | Sem I | Sem II | Sem I | Sem II | ||||||
Compulsory courses for First Degree | ||||||||||||
students | ||||||||||||
Technical Report Writing | BITS F112 | 80 | 80 | 80 (IC) | 80 | 80 | ||||||
Compulsory courses for M.Tech students | ||||||||||||
Sanitation | SAN G513 | 4 (IC) | ||||||||||
Governance and Behaviour | ||||||||||||
Electives for First | ||||||||||||
Degree Students | ||||||||||||
Public Policy (IC) | GS F233 | 52 | 105 | 95 | 90 | 95 | 75 | 75 | ||||
Environment | GS F212 | 80 | 80 | 84 | 85 | 90 | 120 | 120 | 70 | 70 | 68 | |
Development Climate Change(IC) | ||||||||||||
Environmental Sustainability | HSSF381 | Thisisaveryspecialcoursethataimstohelpstudents buildclimatetechstart-ups,incollaborationwith | 50 | |||||||||
Ventures (IC) | http://susmafia.org/ | |||||||||||
Work Integrated | ||||||||||||
Learning programme Courses | ||||||||||||
Environmental Studies | BSDCB ZC225 | 84 | ||||||||||
(IC) | ||||||||||||
Courses for Phd Students | ||||||||||||
Statistical Computing(IC) | 2 | 2 | 1 | |||||||||
2 | 3 | 2 | 5 | |||||||||
Research Methodology | 10 | 10 | ||||||||||
Project Courses | ||||||||||||
Projects | 5 | 5 | 5 | 5 | 5 | 5 | 10 | 10 | 10 | |||
Practice School | 30 | 30 |
Semester 1 2023-24
Semester 2 2023-24
Course Instructor, School of Engineering and Applied Science, Ahmedabad University, India
Lab Instructor, Department of Engineering, University of Cambridge, UK
BIO F111 GENERAL BIOLOGY
BIO F211 BIOLOGICAL CHEMISTRY
BIO F244 INSTRU METHODS OF ANALYSIS
BIO F315 APPLIED NUTRITION & NUTRACEUTICALS
BIOT F424 FOOD BIOTECHNOLOGY
BIO F421 ENZYMOLOGY
BIOT F416 INTRODUCTION TO PHARMACEUTICAL BIOTECHNOLOGY
2005 - 2018: Involved in teaching of following courses in the collaborative programmes, M.S. (Medical Laboratory Technology), B.S.(Physician Assistant), B.S. (Optometry) and M.Phil (Optometry) that includes classroom lectures and laboratory practicals.
Course Title | Course No. | Units |
Basic Biochemistry -1 | OPTO ZC141 | 3 |
Basic Biochemistry - 2 | OPTO ZC162 | 3 |
Biological Chemistry | PATFL ZC141 | 3 |
Clinical Biochemistry | PATFL ZC152 | 5 |
Scientific Measurements | PATFL ZC132 | 3 |
Molecular Genetics | PATFL ZC282 | 3 |
Food & Nutrition in Health | MLTSN ZG611 | 4 |
Enzymology & Metabolism in Health | MLTSN ZG512 | 3 |
Few modules in the following courses: | ||
Recent Advances in Optometry | OPTO ZG644 | 4 |
Geriatric Optometry | OPTO ZC382 | 1 |
Ocular Physiology | OPTO ZC152 | 3 |
Technical Communication | MLTSN ZG659 | 4 |
Technical Report Writing | PATFL ZC261 | 3 |
2005 - 2018: Involved in mentoring, and evaluation of performance, of Final year First Degree and Higher Degree students pursuing structured Internship (PS-II) course, in research labs/industries at Chennai, Hyderabad, Bangalore & Mumbai.
Practice School-II BITS C412 / BITS C413 / BITS G639 20 Units
2013 - 2018: Involved in mentoring, and evaluation of performance, of Second year First Degree (Integrated and Dual) students pursuing structured Summer-Term Internship (PS-I) course at Medical Research Foundation - Sankara Nethralaya, Chennai.
Practice School-I BITS C221 / BITS C231 / BITS C241 5 Units
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Graduated : Three (June 2013, June 2015, June 2016)
ICMR -SRF: 1 [2011-2014]; DBT-SRF: 1 [2012-2015]
Undergraduate Courses
Postgraduate Courses
To be Updated Soon
1
2
3
4
5
6
7
8
To be updated.
To be updated soon.
Feb 2015- March 2021 |
UGC-Assistant Professor, School of Computational & Integrative Sciences, Jawaharlal Nehru University, New Delhi, India |
Feb 2018- Feb 2019 |
Indo-US GETin Fellow (IUSSTF-DBT) at Joint BioEnergy Institute, Lawrence Berkeley National Laboratory and UC Berkeley, Berkeley, California, USA |
March 2014- Jan 2018 |
Ramalingaswami Fellow, Jawaharlal Nehru University, New Delhi, India |
May 2009- Feb 2014 |
Postdoctoral Researcher at Department of Plant Pathology and the Genome Centre, University of California, Davis, California, USA |
Courses
Courses Taught:
To be updated.
Semester 1, 2024-2025
Semester 1, 2023-2024
Semester 2, 2022-2023
Semester 1, 2022-2023
Semester 2, 2021-2022
Semester 1, 2021-2022
Semester 2, 2020-2021
Semester 1, 2020-2021
Semester 2, 2019-2020
Semester 1, 2019-2020
Course Code |
Course Title |
BITS F111 | Thermodynamics |
CHEM F110 | Chemistry Laboratory |
CHEM F111 | General Chemistry |
CHEM F211 | Physical Chemistry-I |
CHEM F213 | Physical Chemistry-II |
CHEM F242 | Chemical Experimentation-I |
CHEM F244 | Physical Chemistry-III |
CHEM F313 | Instrumental Methods of Analysis |
CHEM F320 | Introductory Computational Chemistry Laboratory |
CHEM F324 | Numerical Methods in Chemistry |
CHEM F341 | Chemical Experimentation-II |
CHEM F422 | Statistical Thermodynamics |
CHEM G553 | Advanced Physical Chemistry (Higher degree course) |
Courses from old curriculum:
|
|
CHEM C141 | Chemistry-I |
CHEM C142 | Chemistry-II |
CHEM C211 | Atomic and Molecular Structure |
CHEM C231 | Chemistry Project Laboratory |
CHEM C422 | Statistical Thermodynamics |
TA C211 | Measurement Techniques- |
The ultimate goal of our research is to synthesize novel multi-functional materials and device novel fabrication techniques with a focus to extract superior material performance for a given application. Developing such advanced materials will often require the use of nanomaterials that offer exciting properties. Our research encompasses several components (i.e., synthesis, assembly, characterization, test method development, materials formulation/processing, etc.) designed to give students a very well rounded engineering background. Broadly speaking, the work carried out in colloids and nanocomposites research group is interdisciplinary and at the interface of materials and chemical engineering. The following research projects are currently being undertaken in the CNC research group