Kuliah elektromagnetika
Download
1 / 42

Kuliah ELEKTROMAGNETIKA - PowerPoint PPT Presentation


  • 236 Views
  • Uploaded on

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.

loader
I am the owner, or an agent authorized to act on behalf of the owner, of the copyrighted work described.
capcha
Download Presentation

PowerPoint Slideshow about ' Kuliah ELEKTROMAGNETIKA' - kalea


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




High frequency analog circuits frequency 1ghz 10ghz bluetooth wlan
High frequency analog circuits - Frequency ~ 1GHz - 10GHz - Bluetooth - WLAN


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


• Inside the circuit, velocity of electromagnetic is not much smaller than the wavelength (e.g. ~0.1 wavelength)wave ~ 2x108 m/s– If signal frequency f = 1GHz,wavelength λ = 2x108 / 1x109 = 0.2m


Optical communications
is not much smaller than the wavelength (e.g. ~0.1 wavelength) Optical Communications




Other applications linear motor
Other applications : larger than 0.1 – Linear motor


Computer
– Computer larger than 0.1


Some commercial products magnetic levitation
Some Commercial larger than 0.1 ProductsMagnetic Levitation

http://www.gadgets4sure.com


Magnetic levitation
Magnetic Levitation larger than 0.1

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

  • Force can either be attractive or repulsive


James Clerk Maxwell larger than 0.1

  • 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 larger than 0.1

  • 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


Maxwell’s Contributions larger than 0.1

  • 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 larger than 0.1

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


Remember this1
REMEMBER THIS larger than 0.1

Parameter & Satuan


Remember this2
REMEMBER THIS larger than 0.1

Tool Matematika


Remember this3
REMEMBER THIS larger than 0.1

Peranan Tool Matematika


Remember this4
REMEMBER THIS larger than 0.1

Learning Methode


Remember this5
REMEMBER THIS larger than 0.1

Mengikuti Kuliah :


Remember this6
REMEMBER THIS larger than 0.1

Membuat Catatan Kuliah :


Remember this7
REMEMBER THIS larger than 0.1

Saat Mengikuti Kuliah :


Remember this8
REMEMBER THIS larger than 0.1

Contoh Layout Draft Catatan Kuliah :


Remember this9
REMEMBER THIS larger than 0.1

Saat di Rumah / di Kos-kosan :


Remember this10
REMEMBER THIS larger than 0.1

LATIHAN :


Remember this11
REMEMBER THIS larger than 0.1

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 larger than 0.1

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 larger than 0.1

Evaluasi & Garding :


Remember this14
REMEMBER THIS larger than 0.1

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 larger than 0.1

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




Remember this16
REMEMBER THIS larger than 0.1

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 larger than 0.1

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 dulu larger than 0.1 Selamat Menikmati Hidangan Ini


ad