This course is an introduction to numerical methods, mainly those used to solve ordinary and partial differential equations in mechanical engineering. It is designed both for the engineer who will use existing methods and as an introduction for those who will develop new numerical methods.

미분적분학, 상미분방정식, 또는 교수의 허락

There will be weekly homework sets (30%), a midterm exam (30%), and a final exam (40%). Homework sets will be collected in class on their due dates. The homework problems all involve computer programming. It is very important to get started early. This advice cannot be overemphasized. Please follow the instructions in handout 4 for preparation of you homework solutions to be handed in.

“Numerical Recipes,” by Press et al., Cambridge University Press.

Week 1 : Linear algebra 1
Week 2 : Linear algebra 2
Week 3 : Interpolation methods 1
Week 4 : Interpolation methods 2
Week 5 : Numerical integration 1
Week 6 : Numerical integration 2
Week 7 : Numerical differentiation 1
Week 8 : Numerical differentiation 2
Week 9 : Numerical methods for ordinary differential equations 1
Week 11 : Numerical methods for ordinary differential equations 2
Week 12 : Numerical methods for partial differential equations 1
Week 13 : Numerical methods for partial differential equations 2
Week 14 : Numerical methods for partial differential equations 3
Week 15 : Fourier analysis and spectral methods 1
Week 16 : Fourier analysis and spectral methods 2

이론강의, 실습과제, 중간고사, 기말고사