01204211-58
รุ่นแก้ไขเมื่อ 01:46, 8 ธันวาคม 2558 โดย Jittat (คุย | มีส่วนร่วม)
Announcements
Activities
- 8/20: Activity 1 - Logic 1
- 8/27: Activity 2 - Logic and Proofs
- 9/3: Activity 3 - Induction 1
- 9/10: Activity 4 - Counting 1
- 10/4: Homework 5 - Counting 2
- 10/8: Homework 6 - Number theory 1
- 10/15: Activity 7 - Number theory 2
- 11/26: Activity 8 - Polynomials and Graph theory 1
Topics
Week/number | Topics | Handouts | Links |
---|---|---|---|
1/1 | Introduction, Propositions | handout1 | |
1/2 | Quantifiers | handout2 | Clips: part1, part2, part3, part4 |
2/1 | Inference rules Proof techniques 1 |
handout3 handout4 |
|
2/2 | Proof techniques 2 | handout5 | Clips: part1, part2, part3 |
3/1 | Induction 1 | handout6 | |
3/2 | Induction 2 | handout7 | Clips: part1, part2, part3 |
4/1 | Induction 3 Counting 1 |
handout8 handout9 |
|
4/2 | Counting 2 | handout10 | Clips: part1, part2, part3, part4 |
5/1 | Counting 3 | handout11 | |
5/2 | The pigeonhole principle and the birthday problem | handout12 | Clips: part1, part2, part3, part4 |
6/1 | Binomial Coefficients 1 | handout13 | |
6/2 | Binomial Coefficients 2 Fibonacci sequence |
handout14 handout15 |
Clips (binomial coefficients 2): part1, part2 |
7/1 | Primality testing 1 | handout16 | |
7/2 | Primality testing 2 | handout17 | |
8/1 | Primality testing 3 | handout18 | |
8/2 | Modular arithmetic 1 | ||
9/1 | Modular arithmetic 2 (RSA) | ||
9/2 | Modular arithmetic 3 (Modular multiplicative inverses) | Clips: part1, part2, part3, part4 | |
10/1 | Polynomials | ||
10/2 | (no class - commencements) | ||
11/1 | Graphs 1 - Introduction & degrees | ||
11/2 | (cancelled) | ||
12/1 | Graphs 2 - Eulerian walks | ||
12/2 | (no class - open house) | ||
13/1 | Graphs 3 - Trees | ||
13/2 | Reviews with activities 8 | ||
14/1 | |||
14/2 | Euler's formula | ||
15/1 | Matching | ||
15/2 | Coloring |
Additional links
The outline of the course is inspired mainly by CS70 at Berkeley (See the recent course homepage.) More over, the course borrows a lot of exposition from other sources listed below.
- CS70: Discrete mathematics and probability theoryat Berkeley
- Mathematics for Computer Science at MIT OCW.
- Lovasz, Pelikan, Vesztergombi. Discrete Mathematics: Elementary and Beyond. Springer, 2003. See Lovasz and Vesztergombi's lecture notes (dmbook.ps)
- Matousek and Nestril. Invitation to Discrete Mathematics. 2nd Edition. Oxford Press, 2008.
- Rosen. Discrete Mathematics and Its Applications. Mcgraw-Hill.