Finite Element Method and Computational Structural Dynamics
Created By
Prof. Manish Shrikhande via Swayam
- 0
- 12 weeks long
- Swayam
- English
Course Overview
Easy availability of computing power has made the computer aided engineering accessible to a wider section of the engineering workforce. To harness the potential of available computational resources, one needs to harmonize the twin aspects of theory and practice. While most of the graduate courses teach finite element method, its application to a range of problems using software tools is generally left out. The objective of this course is to approach the finite element theory from a perspective of effective computer implementation with an extensive set of tutorial problems based on public domain software tools.INTENDED AUDIENCE : Post graduate students in Civil / Structural / Geotechnical / Mechanical/Aerospace Engineering and MathematicsPRE REQUISITE :Basic course in CalculusSUPPORTED INDUSTRIES : Firms involved in CAD/CAE.
Course Circullum
Week 1:Floating point arithmetic and scientific computing
Week 2:Mathematical modeling and approximate solutions
Week 3:Finite Elements of 1 dimension
Week 4:Finite Elements of 2 dimensions
Week 5:Finite Elements of 2 dimensions – regular elements
Week 6:Finite Elements of 2 dimensions – distorted elements, numerical integration
Week 7:Finite Elements of 3 dimensions
Week 8:Finite Elements for Plates and Shells
Week 9:Solution of Large Scale Linear Simultaneous Equations
Week 10:Solution of Large Scale Algebraic Eigenvalue Problem
Week 11:Time Marching Methods for Initial Value Problems
Week 12:Fourier Transforms and Analysis in Frequency Domain
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This Course Include:
Week 1:Floating point arithmetic and scientific computing
Week 2:Mathematical modeling and approximate solutions
Week 3:Finite Elements of 1 dimension
Week 4:Finite Elements of 2 dimensions
Week 5:Finite Elements of 2 dimensions – regular elements
Week 6:Finite Elements of 2 dimensions – distorted elements, numerical integration
Week 7:Finite Elements of 3 dimensions
Week 8:Finite Elements for Plates and Shells
Week 9:Solution of Large Scale Linear Simultaneous Equations
Week 10:Solution of Large Scale Algebraic Eigenvalue Problem
Week 11:Time Marching Methods for Initial Value Problems
Week 12:Fourier Transforms and Analysis in Frequency Domain
- Provider:Swayam
- Certificate:Paid Certificate Available
- Language:English
- Duration:12 weeks long
- Language CC: