This course rebuilds calculus on curved spaces: instead of integrating over intervals or regions in Rⁿ, you learn what it means to differentiate and integrate on smooth manifolds, with differential forms as the unifying language that makes the classical Green's, Stokes', and divergence theorems collapse into a single statement. Expect a steady diet of problem sets working through tangent spaces, wedge products, pullbacks, and orientations, with two midterms and a final that lean on computation as much as proof. Building on advanced calculus and point-set topology, it's the bridge into differential geometry and a prerequisite mindset for anything later involving Lie groups, de Rham cohomology, or general relativity.
→ STARS müfredatı (resmi syllabus)
İlk dosyayı sen atarsan — not, slayt, geçmiş sınav, çözüm, cheat-sheet, ne varsa — defter ekibi öğrenci paylaşımlarından bu dersin notlarını yazar. Drive linki / PDF / ZIP, hepsi olur.
| Dönem | Course CPA | |
|---|---|---|
| 2024-2025 Spring | 2.98 | 1 sec · 17 öğr |
| 2022-2023 Fall | 2.05 | 1 sec · 6 öğr |
| 2020-2021 Fall | 2.08 | 1 sec · 21 öğr |
| 2018-2019 Spring | 2.72 | 1 sec · 32 öğr |
| 2016-2017 Fall | 3.55 | 1 sec · 6 öğr |
| 2014-2015 Fall | 2.90 | 1 sec · 10 öğr |
| 2012-2013 Spring | 2.50 | 1 sec · 27 öğr |
| 2009-2010 Fall | 2.10 | 1 sec · 10 öğr |
| 2007-2008 Spring | 3.18 | 1 sec · 9 öğr |
Aggregate course GPA — Bilkent STARS'tan public data. Hoca-bazlı per-section detayı için STARS evaluation report →. Öğrenci anket cevapları KVKK kapsamında defter'de tutulmaz.
Students who score less than 25 points out of 100 in the midterm exam receive an FZ grade.