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Computational Methods in Aerospace Engineering (M-I-T)

(17 Lectures Available)

S# Lecture Course Institute Instructor Discipline
1
  • Session 10: Numerical Methods of PDEs: Finite Volume Methods 1 (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
2
  • Session 11: Numerical Methods of PDEs: Finite Volume Methods 2 (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
3
  • Session 12: Numerical Methods of PDEs: Finite Volume in 2D and Midterm Review (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
4
  • Session 15: Numerical Methods of PDEs: Collocation and Weighted Residuals (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
5
  • Session 16: Numerical Methods of PDEs: Finite Element Method 1 (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
6
  • Session 1: Course introduction and ordinary differential equations (ODEs) (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
7
  • Session 21: Probabilistic Methods & Optimization: Statistical sampling methods (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
8
  • Session 23: Probabilistic Methods & Optimization: Intro to design optimization I (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
9
  • Session 24: Probabilistic Methods & Optimization: Intro to design optimization II (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
10
  • Session 25: Probabilistic Methods & Optimization: Final exam review (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
11
  • Session 2: Numerical Integration of ODEs: Approximating time derivative (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
12
  • Session 3: Numerical Integration of ODEs: Accuracy and a pendulum problem (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
13
  • Session 4: Numerical Integration of ODEs: Stability and a ballistics problem (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
14
  • Session 5: Numerical Integration of ODEs: Nonlinear Systems (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
15
  • Session 6: Numerical Integration of ODEs: Stiffness, Implicit Methods, Runge-Kutta (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
16
  • Session 7: Numerical Methods of Partial Differential Equations: Introduction (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences
17
  • Session 8: Numerical Methods of PDEs: Finite Difference Methods 1 (M-I-T)
Computational Methods in Aerospace Engineering (M-I-T) MIT Prof. Karen Willcox, Prof. Qiqi Wang Applied Sciences

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