This is where the abstract Maxwell's equations from EEE 311/312 finally turn into hardware: you learn to predict and shape how a metal structure radiates EM energy into free space, then how to steer that radiation by phasing multiple elements together. Expect a steady diet of far-field integrals, pattern and gain calculations, and array-factor problem sets, plus a project where you design and analyze a real antenna configuration on top of the usual midterm, final, and quizzes. It's the bridge between electromagnetics theory and anything wireless — radar, 5G, satellite links — and pairs naturally with microwave and communications electives down the line.
→ 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 | |
|---|---|---|
| 2025-2026 Fall | 2.95 | 1 sec · 15 öğr |
| 2024-2025 Fall | 3.09 | 1 sec · 19 öğr |
| 2023-2024 Fall | 3.03 | 1 sec · 11 öğr |
| 2020-2021 Fall | 3.03 | 1 sec · 6 öğr |
| 2018-2019 Spring | 2.55 | 1 sec · 21 öğr |
| 2017-2018 Spring | 3.94 | 1 sec · 6 öğr |
| 2016-2017 Spring | 2.13 | 1 sec · 10 öğr |
| 2015-2016 Spring | 3.03 | 1 sec · 9 öğr |
| 2014-2015 Spring | 2.40 | 1 sec · 11 öğr |
| 2013-2014 Spring | 2.34 | 1 sec · 5 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.
Course Learning Outcomes: Course Learning Outcome Assessment Demonstrate an awareness of basic antenna parameters. Q FN MT Demonstrate an awareness of the far-field concept and to be able to calculate the radiation pattern and gain of simple and basic antennas. Q FN MT Construct a mathematical model for transmitting and receiving antennas, as well as the wave propagation between them. Q FN MT Demonstrate an awareness of array theory Q FN MT To be able to formulate the radiation pattern and gain