Mass Momentum and Energy Balances in Engineering Analysis
Created By
Prof. Pavitra Sandilya via Swayam
- 0
- 8 weeks long
- Swayam
- English
Course Overview
ABOUT THE COURSE:The course is intended to revisit the conservation laws as a primer for the study of the transport phenomena and thermodynamics. Both macroscopic and microscopic approaches in applying these laws will be dealt with. The students will learn how to make mass-, momentum- and energy-balances by going through the course.INTENDED AUDIENCE:Aerospace/ Mechanical/ Chemical/ Ocean/ Cryogenic/ Marine/ Naval/Energy/ Petroleum/ Environmental/ Geological EngineeringPREREQUISITES:10+2 Science and MathematicsINDUSTRY SUPPORT: All process and allied industries
Course Circullum
Week 1: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 2: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 3: Introduction to numerical methods (roots of nonlinear algebraic equations, regression, interpolation etc.)
Week 4: Introduction to numerical methods (numerical integration/differentiation, solution of ordinary and partial differential equations)
Week 5: Macroscopic approaches to mass, momentum and energy balances
Week 6: Microscopic approach to mass balance
Week 7: Microscopic approach to momentum balance
Week 8: Microscopic approach to energy balance
Week 2: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 3: Introduction to numerical methods (roots of nonlinear algebraic equations, regression, interpolation etc.)
Week 4: Introduction to numerical methods (numerical integration/differentiation, solution of ordinary and partial differential equations)
Week 5: Macroscopic approaches to mass, momentum and energy balances
Week 6: Microscopic approach to mass balance
Week 7: Microscopic approach to momentum balance
Week 8: Microscopic approach to energy balance
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This Course Include:
Week 1: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 2: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 3: Introduction to numerical methods (roots of nonlinear algebraic equations, regression, interpolation etc.)
Week 4: Introduction to numerical methods (numerical integration/differentiation, solution of ordinary and partial differential equations)
Week 5: Macroscopic approaches to mass, momentum and energy balances
Week 6: Microscopic approach to mass balance
Week 7: Microscopic approach to momentum balance
Week 8: Microscopic approach to energy balance
Week 2: Introduction to linear algebra (vectors, tensors, and matrix operations)
Week 3: Introduction to numerical methods (roots of nonlinear algebraic equations, regression, interpolation etc.)
Week 4: Introduction to numerical methods (numerical integration/differentiation, solution of ordinary and partial differential equations)
Week 5: Macroscopic approaches to mass, momentum and energy balances
Week 6: Microscopic approach to mass balance
Week 7: Microscopic approach to momentum balance
Week 8: Microscopic approach to energy balance
- Provider:Swayam
- Certificate:Paid Certificate Available
- Language:English
- Duration:8 weeks long
- Language CC: