Kuliah elektromagnetika
This presentation is the property of its rightful owner.
Sponsored Links
1 / 42

Kuliah ELEKTROMAGNETIKA PowerPoint PPT Presentation


  • 193 Views
  • Uploaded on
  • Presentation posted in: General

Kuliah ELEKTROMAGNETIKA. Kode Mata Kuliah: EES220804 Kredit: 4 (empat) SKS Fasilitator:Amien Rahardjo & Fitri Yuli Z Semester:Genap Tahun Ajaran:2009 – 2010 Waktu Kuliah: Selasa 16 .00 – 17 .50 S . 504 Kamis 13.00 – 1 4 . 5 0 S . 402. introduction.

Download Presentation

Kuliah ELEKTROMAGNETIKA

An Image/Link below is provided (as is) to download presentation

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.


- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -

Presentation Transcript


Kuliah elektromagnetika

Kuliah ELEKTROMAGNETIKA

Kode Mata Kuliah:EES220804Kredit:4 (empat) SKSFasilitator:Amien Rahardjo & Fitri Yuli ZSemester:GenapTahun Ajaran:2009 – 2010

Waktu Kuliah: Selasa16.00 – 17.50 S.504

Kamis13.00 – 14.50 S.402


Introduction

introduction

What is it all about?

What is our concern?

How do we deliver this course?


Global view

GLOBAL VIEW

OBYEKTIF PERKULIAHAN

Tujuan Pembelajaran Umum :

Memahami konsep-2 dan hukum-2 Elektromagnetika

Tujuan Pembelajaran Khusus

Mengenal berbagai besaran dlm konsep Elektromagnetika

Mengenal pemodelan matematis persoalan-2 Elektromagnetika

Mengenal pengetrapan H. Maxwell utk persoalan dasar Elektromagnetika

Mengenal perilaku fenomena Medan Elektromagnetika

Pemahaman Ilmu-2 Dasar : FISIKA & MATEMATIKA


Aplikasi elektromagnetika

Aplikasi Elektromagnetika

DEPARTEMEN TEKNIK ELEKTRO

UNIVERSITAS INDONESIA


Remember this

REMEMBER THIS

Aplikasi Elektromagnetika

Rangkaian – Komponen Elektronika & Rangkaian – Komponen Listrik

Teknologi Telekomunikasi- Informatika- & Komputer

Mesin-mesin Listrik [Generator , Motor, Transformator]

Peralatan Medis, Sinematographi, Peralatan Pencitraan


1 when wave propagation effects cannot be neglected

1. When wave propagation effects cannot be neglected


2 when radiation is involved

2. When radiation is involved


3 when detailed field distribution is required

3. When detailed field distribution is required


High frequency analog circuits frequency 1ghz 10ghz bluetooth wlan

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


Kuliah elektromagnetika

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


Kuliah elektromagnetika

• Inside the circuit, velocity of electromagneticwave ~ 2x108 m/s– If signal frequency f = 1GHz,wavelength λ = 2x108 / 1x109 = 0.2m


Optical communications

• Optical Communications


Radiation becomes efficient when the dimension of conductor larger than 0 1 wavelength antennas

Radiation becomes efficient when the dimension of conductor larger than 0.1 wavelengthAntennas


Electromagnetic interference and compatibility

• Electromagnetic interference and compatibility


Other applications linear motor

Other applications :– Linear motor


Computer

– Computer


Some commercial products magnetic levitation

Some Commercial ProductsMagnetic Levitation

http://www.gadgets4sure.com


Magnetic levitation

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


Kuliah elektromagnetika

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


More on maxwell

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


Kuliah elektromagnetika

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


Maxwell s equations

Maxwell’s Equations

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


Remember this1

REMEMBER THIS

Parameter & Satuan


Remember this2

REMEMBER THIS

Tool Matematika


Remember this3

REMEMBER THIS

Peranan Tool Matematika


Remember this4

REMEMBER THIS

Learning Methode


Remember this5

REMEMBER THIS

Mengikuti Kuliah :


Remember this6

REMEMBER THIS

Membuat Catatan Kuliah :


Remember this7

REMEMBER THIS

Saat Mengikuti Kuliah :


Remember this8

REMEMBER THIS

Contoh Layout Draft Catatan Kuliah :


Remember this9

REMEMBER THIS

Saat di Rumah / di Kos-kosan :


Remember this10

REMEMBER THIS

LATIHAN :


Remember this11

REMEMBER THIS

Saat Mengikuti UJIAN :

1. SUDAH BELAJAR : Membaca, Memahami Materi Kuliah dari

Buku Acuan & Catatan

2. SUDAH MEMPERSIAPAN : Alat Tulis – Menulis

Buku Acuan & Catatan

3. CERMAT MEMBACA SOAL, FOKUS KERJAKAN SOLUSINYA

4. KERJAKAN SENDIRI, TIDAK KERJASAMA

JANGAN LUPA BER – D O A !!!!!


Remember this12

REMEMBER THIS

Aplikasi Elektromagnetika

Rangkaian – Komponen Elektronika & Rangkaian – Komponen Listrik

Teknologi Telekomunikasi- Informatika- & Komputer

Mesin-mesin Listrik [Generator , Motor, Transformator]

Peralatan Medis, Sinematographi, Peralatan Pencitraan


Remember this13

REMEMBER THIS

Evaluasi & Garding :


Remember this14

REMEMBER THIS

Performance Indicators :

Tolok Ukur (Performance Indicators) Penilaian digunakan

dlmkuliahElektromagnetika 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


Remember this15

REMEMBER THIS

Tata 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 Kelompokmembuat& 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


Kuliah elektromagnetika

Satuan Ajar Pengajaran [SAP]


Kuliah elektromagnetika

Satuan Ajar Pengajaran [SAP]


Remember this16

REMEMBER THIS

Buku Acuan Elektromagnetika

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


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

Agenda Penting


Sekian dulu selamat menikmati hidangan ini

Sekian duluSelamat Menikmati Hidangan Ini


  • Login