Get updates on Eligibility, Admission, Placements Fees Structure
Quick Facts
| Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
|---|---|---|
| English | Self Study, Virtual Classroom | Video and Text Based |
Course Overview
The Continuum Mechanics and Transport Phenomena certification course delves into the foundational principles of transport phenomena, targeting Chemical Engineering, Mechanical Engineering, and Biotechnology undergraduates. Students explore fluid kinematics, mass and momentum balances, stress analysis, and applications of key equations like Navier-Stokes. The course prepares students for careers in diverse process industries.
With the Continuum Mechanics and Transport Phenomena certification by NPTEL, students develop a solid understanding of how physics laws govern processes in sectors such as chemical, mechanical, and biotech. Emphasis is placed on problem-solving skills and real-world applications, equipping students with the tools to analyse and address challenges encountered in process industries.
The Highlights
- Core Online Course
- 12 Weeks Duration
- Offered by IIT Madras
Programme Offerings
- Certificate of completion
- Practical Learning
- Hands-on Experience
Courses and Certificate Fees
| Fees Informations | Certificate Availability | Certificate Providing Authority |
|---|---|---|
| INR 1000 | yes | IIT Madras (IITM) |
The Continuum Mechanics and Transport Phenomena certification fees are free. However, if you want a certificate, you must register and take the proctored exam at designated centres, which is optional and comes with a fee of Rs 1000.
Continuum Mechanics and Transport Phenomena Certification Fee Structure
Particulars | Total Fees |
Continuum Mechanics and Transport Phenomena (exam) | Rs 1000/- |
Eligibility Criteria
Academic Qualifications
The Continuum Mechanics and Transport Phenomena certification course is intended for undergraduate students studying Chemical Engineering, Mechanical Engineering, and Biotechnology, who should have prior knowledge of Engineering Physics, Mathematics, Chemical Process Principles, and Engineering Thermodynamics.
Certification Qualifying Details
To receive the Continuum Mechanics and Transport Phenomena certification by NPTEL, you need a minimum average assignment score of 10/25 and an exam score of 30/75.
What you will learn
After completing the Continuum Mechanics and Transport Phenomena certification syllabus, you will gain a comprehensive understanding of the fundamental principles underlying transport phenomena. You will delve into fluid kinematics, learning to differentiate between Eulerian and Lagrangian perspectives, and mastering concepts like material derivative and Reynolds transport theorem.
Upon completion of the Continuum Mechanics and Transport Phenomena training, you will develop the skills to analyse and solve complex problems in various process industries. You will explore stress and strain analysis, understanding the relationship between material properties and phenomena like deformation.
Who it is for
The Continuum Mechanics and Transport Phenomena online course is suitable for undergraduate students pursuing degrees in Chemical Engineering, Mechanical Engineering, and Biotechnology. This course can also be beneficial for:
Admission Details
Follow these steps to join the Continuum Mechanics and Transport Phenomena classes:
Step 1: Browse the URL below:
https://swayam.gov.in/NPTEL
Step 2: Click on the “Sign-in/ Register” button
Step 3: Log in using a Google account-enabled email address
Step 4: Select your preferred course. Review the course details and fill out the required fields
Step 5: Click on the "Join" button
The Syllabus
- Fluid kinematics: Eulerian vs. Lagrangian
- Material Derivative: Flow visualization
- System vs. Control volume
- Reynolds Transport Theorem
- Total mass balance: integral balance and applications
- Differential balance and applications
- Linear Momentum balance: Integral balance
- Calculation of force
- Stress Traction Vector, Stress at a point, Stress element, stress tensor
- Cauchy's formula
- Equality of cross shears
- Fluids at rest
- Stress in fluids
- Strain Types and measures of deformation
- Displacement Field, Displacement Gradient 1D, 3D
- Relationship between strain and Displacement Field
- Displacement Gradient Tensor, Strain tensor, Rotation tensor
- Fluids vs. Solids
- Strain rate tensor
- Hooke's Law
- Lame's equation
- Relationship between material properties
- Newton's law of viscosity
- Navier-Stokes equation
- Pascals's law and applications
- Bernoulli equation and applications
- Applications of Navier-Stokes equation - Couette flow and Poiseuille flow
- Momentum transport: Shear stress as momentum flux
- Navier Stokes equation
- Integral energy balance and applications
- Differential balance for total energy, Potential energy, Kinetic energy, Internal energy, Enthalpy, Temperature
- Fourier's law
- Applications of differential energy balance Composite walls, Couette Flow
- Integral component mass balance and applications (batch reactor and CSTR)
- Fick's law
- Total flux, diffusion flux, convection flux, different average velocities
- Differential component mass balance
- Applications of differential component mass balance: Diffusion through stagnant film
- Diffusion with homogeneous reaction
- Shell balance in Cylindrical and Spherical Coordinates: Liquid flow through pipe
- Current Flow through wire
- Sublimation of solid
- Concluding remarks
Evaluation process
The Continuum Mechanics and Transport Phenomena certification offers an optional exam. Your final score is determined by averaging the best 8 out of 12 assignments (25%) and your proctored exam score (75%).
Instructors
IIT Madras (IITM) Frequently Asked Questions (FAQ's)
Prior knowledge of Engineering Physics, Mathematics, Chemical Process Principles, and Engineering Thermodynamics is required.
This course will provide you with a strong foundation in understanding transport phenomena, essential for careers in chemical engineering, mechanical engineering, biotechnology, and other process industries.
The course will be taught by Prof. T. Renganathan, a faculty member in the Department of Chemical Engineering at IIT Madras, with extensive experience in teaching core courses.
Yes, the course includes hands-on exercises and practical demonstrations to reinforce theoretical concepts and enhance problem-solving skills.
While the course is primarily designed for students in these fields, individuals with a strong interest in transport phenomena and the necessary prerequisite knowledge may also benefit from taking it.