Teaching

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Teaching experience

Course Instructor (January 2024 - May 2024), IIT (ISM) Dhanbad

Course: Optimization Methods (CEO525) (B. Tech. 7th Semester)

Lab: Computational Laboratory (NCEC512) (M. Tech. 1st year)

Course Instructor (August 2024 - December 2024), IIT (ISM) Dhanbad

Course: Mechanics of Solid (CEE201) (B. Tech. 3rd Semester) (jointly with a Mechanical Department faculty member)

Course: Computational Solid Mechanics (CED501) (B. Tech. 7th Semester)

Lab: Engineering Graphics Practical (CEI101) (B.Tech. 1st Semester)

Course Instructor (January 2024 - May 2024), IIT (ISM) Dhanbad

Course: Optimization Methods (CEO525) (B. Tech. 7th Semester)

Course Instructor (August 2023 - December 2023), IIT (ISM) Dhanbad

Course: Mechanics of Solid (CEE201) (B. Tech. 3rd Semester) (jointly with a Mechanical Department faculty member)

Course: Computational Solid Mechanics (CED501) (B. Tech. 7th Semester)

Lab: Engineering Graphics Practical (CEI101) (B.Tech. 1st Semester)

Course Instructor (June 2023 - July 2023), IIT (ISM) Dhanbad

Course: Optimization Methods (CEO525) (B. Tech. 7th Semester) (jointly with a Civil Department faculty member)

Course Instructor (January 2023 - May 2023), IIT (ISM) Dhanbad

Course: Optimization Methods (CEO525) (B. Tech. 7th Semester)

Lab: Engineering Graphics Practical (CEI101) (B.Tech. 2nd Semester)

Course Instructor (August 2022 - December 2022), IIT (ISM) Dhanbad

Course: Mechanics of Solid (CEE201) (B. Tech. 3rd Semester) (jointly with a Mechanical Department faculty member)

Course: Computational Solid Mechanics (CED501) (B. Tech. 7th Semester)

Lab: Engineering Graphics Practical (CEI101) (B.Tech. 1st Semester)

Course Instructor (January 2022 - May 2022), IIT (ISM) Dhanbad

Course: Structural Dynamics (CEO404) (B. Tech. 6th Semester)

Lab: Finite Element Method Lab (CEC18201) (B. Tech. 8th Semester)

Lab: Engineering Graphics practical (CEI101) (B. Tech. 2nd Semester)

Course Instructor (August 2021 - December 2021), IIT (ISM) Dhanbad

Course: Mechanics of Solid (CEE201) (B. Tech. 3rd Semester) (jointly with a Mechanical Department faculty member)

Course: Optimization Methods (CEO302) (B. Tech. 5th Semester)

Teaching Assistant (August 2016 - December 2016)

Structural Engineering, Indian Institute of Science (IISc), Bangalore, India.

Course: Solid Mechanics (CE-204)

Teaching Assistant (January 2013 - April 2013)

Structural Engineering, Indian Institute of Technology (IIT), Delhi, India.

Course: Design of Steel Structures (CEL332)

Course developed

Computational Solid Mechanics (CED501)

Lecture notes of Structural Dynamics (B.Tech. level course) - Dr. Pranesh Roy

Notes are taken from the following books:

1. Meirovitch, L. (2010). Fundamentals of vibrations. Waveland Press.

2. Chopra, A. K. (2007). Dynamics of structures. Pearson Education India.

3. Roy, D., & Rao, G. V. (2012). Elements of structural dynamics: a new perspective. John Wiley & Sons.

4. Datta, T. K. (2010). Seismic analysis of structures. John Wiley & Sons.

5. Stochastic Differential Equations - Bernt Oksendal

Part 1: Basic principles

Lec1_SD.pdf

Lec2_SD.pdf

Lec3_SD.pdf

Lec4_SD.pdf

Lec5_SD.pdf

Part 2: Single degree of freedom systems

Lec6_SD.pdf

Lec7_SD.pdf

Lec8_SD.pdf

Lec9_SD.pdf

Lec10_SD.pdf

Lec11_SD.pdf

Lec12_SD.pdf

Lec13_SD.pdf

Lec14_SD.pdf

Lec15_SD.pdf

Lec16_SD.pdf

Lec17_SD.pdf

Lec18_SD.pdf

Part 3: Two degree of freedom systems

Lec19_SD.pdf

Lec20_SD.pdf

Lec21_SD.pdf

Lec22_SD.pdf

Lec23_SD.pdf

Part 4: Multi-degree of freedom systems

Lec24_SD.pdf

Lec25_SD.pdf

Lec26_SD.pdf

Lec27_SD.pdf

Lec28_SD.pdf

Lec29_SD.pdf

Lec30_SD.pdf

Part 5: Continuous systems

Lec31_Continuous_systems.pdf

Lec32_SD.pdf

Lec33_SD.pdf

Lec34_SD.pdf

Lec35_eigenfunction_expansion_theorem.pdf

Part 6: Random vibration

Lec36_Earthquake_engineering.pdf

Lec37_random_vibration.pdf

Lec38_Response_spectra.pdf

Lec39_Power_spectra.pdf

A few lecture notes of Solid Mechanics (B.Tech. level course) - Dr. Pranesh Roy

Notes are taken from the following books:

1. Jog, C. S. (2015). Continuum Mechanics: Volume 1: Foundations and Applications of Mechanics. Cambridge University Press.

2. Papadopoulos, P. (2008). Introduction to continuum mechanics. Berkeley, California.

3. Abeyaratne, R. (1998). Continuum Mechanics. Lecture Notes on The Mechanics of Elastic Solids. MIT.

4. Chajes, A. (1974). Principles of structural stability theory. Prentice Hall.

5. Archer, R. R., Crandall, S. H., Dahl, N. C., Lardner, T. J., & Sivakumar, M. S. (Eds.). (2012). An introduction to mechanics of solids. Tata McGraw-Hill Education.

6. Megson, T. H. G. (2016). Aircraft structures for engineering students. Butterworth-Heinemann.

7. Strength of Materials: Timoshenko - Part-I

8. Strength of Materials: Timoshenko - Part-II

Part I: Theory

Background.pdf

Lec1_Stress-strain_behavior_of_engineering_materials.pdf

Lec2_Introduction to tensors.pdf

Lec3_stress_tensor.pdf

Lec4_Green-Lagrange strain tensor.pdf

Lec5_Generalized Hooke's law_Thermal stress_tensor_components transformation.pdf

Lec6_Mohr's_Circle.pdf

Lec7_PR.pdf

Lec8_PR.pdf

Lec9_Compatibility conditions.pdf

Lec10_Equations of motion.pdf

Lec11_Failure theories.pdf

Lec11a_PR_failure_theories_continued.pdf

Part II: Applications to bending of beams

Lec12_PR.pdf

Lec13_PR.pdf

Lec14_PR.pdf

Lec15_PR.pdf

Lec16_PR.pdf

Lec17_PR.pdf

Lec18_PR.pdf

Lec19_PR.pdf

Lec20_PR.pdf

Lec21_PR.pdf

Part III: Applications to buckling and unsymmetrical bending

Lec31_Buckling of columns.pdf

Lec32_Buckling of columns (continued).pdf

Lec33_Buckling (continued).pdf

Lec34_Buckling (continued).pdf

Lec35_Unsymmetrical bending of beams.pdf

Lec36_Unsymmetrical bending continued.pdf

Lec37_Unsymmetrical bending continued.pdf

Lec38_Shear flow.pdf

Lec39_Shear center, Open and closed coiled helical springs.pdf

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