Kuliah ELEKTROMAGNETIKAKode Mata Kuliah : EES220804Kredit : 4 (empat) SKSFasilitator : Amien Rahardjo & Fitri Yuli ZSemester : GenapTahun Ajaran : 2009 – 2010Waktu Kuliah : Selasa 16.00 – 17.50 S.504

Kamis 13.00 – 14.50 S.402

© 2000, Cisco Systems, Inc. www.cisco.com

introduction• What is it all about?• What is our concern?• How do we deliver this course?

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Tujuan Pembelajaran Khusus

Mengenal berbagai besaran dlm konsep ElektromagnetikaMengenal pemodelan matematis persoalan-2 Elektromagnetika

Mengenal pengetrapan H. Maxwell utk persoalan dasar ElektromagnetikaMengenal perilaku fenomena Medan Elektromagnetika

GLOBAL VIEW

OBYEKTIF PERKULIAHAN

Tujuan Pembelajaran Umum :Memahami konsep-2 dan hukum-2 Elektromagnetika

Pemahaman Ilmu-2 Dasar : FISIKA & MATEMATIKA

© 2000, Cisco Systems, Inc. www.cisco.com

Aplikasi Elektromagnetika

DEPARTEMEN TEKNIK ELEKTROUNIVERSITAS INDONESIA

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Rangkaian – Komponen Elektronika & Rangkaian – Komponen ListrikTeknologi Telekomunikasi- Informatika- & Komputer

Mesin-mesin Listrik [Generator , Motor, Transformator]Peralatan Medis, Sinematographi, Peralatan Pencitraan

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Aplikasi Elektromagnetika

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1. When wave propagation effects cannot be neglected

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2. When radiation is involved

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3. When detailed field distribution is required

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• High frequency analog circuits - Frequency ~ 1GHz - 10GHz

- Bluetooth - WLAN

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Propagation effects cannot be neglected when the signal path is

not much smaller than the wavelength (e.g. ~0.1 wavelength)

• High speed digital circuits- System Clock ~ 1GHz

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• Inside the circuit, velocity of electromagnetic

wave ~ 2x108 m/s– If signal frequency f = 1GHz,wavelength λ = 2x108 / 1x109 =

0.2m

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• Optical Communications

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Radiation becomes efficient when the dimension of conductor larger than 0.1

wavelength

Antennas

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• Electromagnetic interference and compatibility

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Other applications : 

– Linear motor

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– Computer

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Some Commercial Products Magnetic Levitation

http://www.gadgets4sure.com

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Magnetic Levitation

• Trains can magnetically fly over a roadbed with position sustained by some kind of control system

• Force can either be attractive or repulsive

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James Clerk Maxwell

• Born in Edinburgh, Scotland in 1831

• Attended Edinburgh Academy, The University of Edinburgh, and Cambridge University

• Published by the young age of 14

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More on Maxwell

• Maxwell differed from his contemporaries in the nineteenth century

• Faraday & Ampere contributed to Maxwell’s theories

• Much of his important work was accomplished between the ages of 29 and 35

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Maxwell’s Contributions• Analysis of color perception• An explanation of Saturn’s rings• Analysis of the theory of fluids and solids• Helped father modern statistical mechanics and

the molecular theory of gases

• Theory of Electromagnetism – Maxwell’s equations

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Maxwell’s Equations

• Gauss’s Law, no monopoles, Ampere’s Law and Faraday’s Law

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Parameter & Satuan

Simbol Keterangan SatuanQ, qEDΨε

Muatan ElektronKuat Medan ListrikKepadatan Medan ListrikFluks ListrikPermitivitas

CoulombVolt/mCoulomb/m2

CoulombFarad/m

IHBФμ

Arus ListrikKuat Medan MagnitKepadatan edan MagnitFluks MagnitPermeabilitas

AmpereAmpere/mTesla, Weber/m2

WeberHenry/m

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Tool Matematika

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Peranan Tool Matematika

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Learning Methode

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Mengikuti Kuliah :

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Membuat Catatan Kuliah :

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REMEMBER THIS

Saat Mengikuti Kuliah :

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Contoh Layout Draft Catatan Kuliah :

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REMEMBER THIS

Saat di Rumah / di Kos-kosan :

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REMEMBER THIS

LATIHAN :

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REMEMBER THIS

Saat Mengikuti UJIAN :

1. SUDAH BELAJAR : Membaca, Memahami Materi Kuliah dari Buku Acuan & Catatan

2. SUDAH MEMPERSIAPAN : Alat Tulis – MenulisBuku Acuan & Catatan

3. CERMAT MEMBACA SOAL, FOKUS KERJAKAN SOLUSINYA

4. KERJAKAN SENDIRI, TIDAK KERJASAMA

JANGAN LUPA BER – D O A !!!!!

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Rangkaian – Komponen Elektronika & Rangkaian – Komponen ListrikTeknologi Telekomunikasi- Informatika- & Komputer

Mesin-mesin Listrik [Generator , Motor, Transformator]Peralatan Medis, Sinematographi, Peralatan Pencitraan

REMEMBER THIS

Aplikasi Elektromagnetika

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REMEMBER THIS

Evaluasi & Garding :

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Performance Indicators :

Tolok Ukur (Performance Indicators) Penilaian digunakan dlm kuliah Elektromagnetika a.n :

1. Tingkat Kehadiran minimal 70% 2. Bobot Nilai Akhir T [100%] : Bobot Nilai : Presentasi [0,5] + PR [0,15] + UTS [0,35] = 50 % T Bobot Nilai : Presentasi + PR + UAS = 50 % T 3. Nilai Presentasi fungsi Keaktifan Individual

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REMEMBER THISTata Tertib Mengikuti Kuliah :

1. Batas Keterlambatan : 10 menit 2. Selama Kuliah Semua HP hrs di Non Aktif 3. Keluar-Masuk Ruang Kuliah se Ijin Dosen 4. Tidak Membuat Gaduh 5. Berbusana yg Baik, Bersepatu [noSandal] 6. Setiap Kelas membentuk Kelompok-2, setiap Kelompok membuat & mempresentasikan Topik materi kuliah sesuai SAP dgn Acuan : Buku Ajar Utama dan Buku-2 Elektromagnetika lainnya 7. Setiap Kelas harus punya Ketua Kelas ; yang menangani Absensi, penyiapan kuliah, sebagai kontak penghubung Dosen

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Satuan Ajar Pengajaran [SAP]No. Hari / Tanggal Modul Kuliah

1. Selasa, 1 Febr. 2011 PENDAHULUAN : Topik 1.Vector Analysis

2. Kamis 10 Febr. 2011 Topik 2. Coulomb’s Law and Electric Field Intensity Presentasi Kelompok

3. Kamis, 17 Pebr. 2011 Topik 3. Electric Flux Density, Gauss Law and Divergence Presentasi Kelompok

4. Selasa, 22 Febr. 2011 Topik 4. Energy and Potential Presentasi Kelompok

5. Kamis, 24 Febr. 2011 Topik 5. Current and Conductors Presentasi Kelompok

6. Selasa, 1 Maret 2011 Topik 6. Dielectrics and Capacitance Presentasi Kelompok

7. Kamis, 3 Maret 2011 Topik 7. Poisson’s and Laplace EquationsPresentasi Kelompok

8. Selasa, 8 Maret 2011 Topik 8. The Steady Magnetic Field Presentasi Kelompok

9. Kamis, 10 Maret 2011 Topik 9. Magnetic ForcesPresentasi Kelompok

10. Selasa, 15 Maret 2011 Topik 10. Materials MagneticPresentasi Keleompok

11. Kamis, 17 Maret 2011 Topik 11. Circuit Magnetic and InductancesPresentasi Keleompok

12. Kamis, 24 Maret 2011 Ujian Tengah Semester

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Satuan Ajar Pengajaran [SAP]No. Hari / Tanggal Modul Kuliah

1. Selasa, 5 April 2011 Topik 1. Review pers maxwell.

Plane waves

2. Kamis, 7 April 2011 Topik 2. Plane wavesPresentasi Kelompok

3. Selasa, 12 April 2011 Topik 3. Plane wavesPresentasi Kelompok

4. Kamis, 14 April 2011 Topik 4 Transmission linesPresentasi Kelompok

5. Selasa, 19 April 2011 Topik 5 Transmission linesPresentasi Kelompok

6. Kamis, 21 April 2011 Topik 6 Transmission linesPresentasi Kelompok

7. Selasa, 26 April 2011 Topik 7 Waveguide Presentasi Kelompok

8. Kamis, 28 April 2011 Topik 8 WaveguidePresentasi Kelompok

9. Selasa, 3 Mei 2011 Topik 9 Pengenalan antenaPresentasi Keleompok

10. Kamis, 5 Mei 2011 Topik 10 Electromagnetic interferencePresentasi Keleompok

11. Selasa, 10 Mei 2011 Topik 11 EMI dan review bahan kuliah

12. Kamis, 12 Mei 2011 Responsi Review Kuliah & Persiapan UAS

13. Kamis, 19 Mei 2011 Ujian Akhir Semester

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1. Stuart M. Wentworth,”Fundamentals of Electromagnetics with Engineering Applications” John Wiley, 2005

2. Fawwaz T Ulaby,”Fundamental of Applied Electromagnetics”, Prentice Hall Pub., 2001

Buku Pustaka : Buku-buku lain yang sejenis

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Buku Acuan Elektromagnetika

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Agenda Penting

JADWAL PERTEMUAN• Hari : setiap Selasa• Waktu : 08:00 s/d 09:50• Ruangan : A-202• Hari : setiap Kamis• Waktu : 13:00 s/d 14:50• Ruangan : S-102

• Kebutuhan :

– satu unit LCD– satu unit Notebook– satu orang Notulis– Presentator

Ujian Tengah Semester• Hari : 30 Maret 2010• Waktu : 60 - 90 menit• Sifat : Close Book

Ujian Akhir Semester• Hari : 18 Mai 2010• Waktu : 60 - 90 menit• Sifat : Close Book

© 2000, Cisco Systems, Inc. www.cisco.com

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