◎系所教育目標:
配合國家產業發展需要,本系以培育高級電機科技人才為目的。在教學上並重理論及實作的探討,以期待培育出具有深厚電資基礎並能實際應用的科技人才,在專業必修中涵蓋所有電機系所需之基礎理論。本系分微電子與晶片系統組、通訊與計算機組、電力與控制組來發展,微電子與晶片系統組相關有:VLSI設計、控制系統,數位訊號處理程式設計;通訊與計算機組相關有:RFID、通訊原理、數位訊號處理;電力與控制組:光電工程、電力電子、固態電子元件;並有畢業專題製作,使學生有紮實基礎,作為日後的升學就業準備。在整合專業與智能心性下完成學生具「經業以恆、思辨以弘、勵志以高、經世以遠」之教育目標。 |
| ◎核心能力 | 關聯性 |
| 1.培養技術應用的基礎能力 | 3 關聯性中等 |
| 2.培養分析問題的能力 | 3 關聯性中等 |
| 3.強化學生的抗壓性與創造力 | 3 關聯性中等 |
◎本學科學習目標:
培養學生基本物理科學素養。 透過基礎物理科學的學習,奠定學生未來在各理、工領域發展的基本專業知識,並能學以致用。 |
| ◎教學進度: |
| 週次 | 主題 | 教學內容 | 教學方法 |
01
02/18
02/19 | Electric Charge | 1.Electric Charge
2.Conductors and Insulators
3.Coulomb’s Law
4.Charge is Quantized
5.Charge is Conserved | 講授、討論。 |
02
02/25
02/26 | Electric Fields | 1.The Electric Field
2.Electric Field Lines
3.The Electric Field due to a Point
4.The Electric Field due to an Electric Dipole
5.The Electric Field due to a Continuous Charge
6.A Point Charge in an Electric Field
7.A Dipole in an Electric Field | 講授、討論。 |
03
03/04
03/05 | Gauss’s Law | 1.Flux
2.Electric Flux
3.Gauss’s Law
4.Gauss’s Law and Coulomb’s Law
5.A Charged Isolated Conductor
6.Applying Gauss’s Law and Cylindrical Symmetry
7.Applying Gauss’s Law, Planar Symmetry
Non-conducting Sheet
8.Applying Gauss’s Law, Spherical Symmetry | 講授、討論。 |
04
03/11
03/12 | Electric Potential | 1.Electric Potential Energy
2.Electric Potential
3.Equipotential Surfaces
4.Calculating the Potential from the Field
5.Potential Due to a Point Charge
6.Potential Due to a Group of Point Charges | 講授、討論。 |
05
03/18
03/19 | Electric Potential | 1.Potential Due to an Electric Dipole
2.Potential Due to a Continuous Charge Distribution: Line of Charge
3.Calculating the Field from the Potential
4.Electric Potential Energy of a System of Point Charges
5.Potential of a Charges, Isolated Conductor | 講授、討論。 |
06
03/25
03/26 | Capacitance | 1.Calculating the Capacitance
2.Capacitors in Parallel
3.Energy Stored in an Electric Field
4.Energy Density
5.Capacitor with a Dielectric | 講授、討論。 |
07
04/01
04/02 | Current and Resistance | 1.Electric Current
2.Current Density, Drift Speed
3.Resistance and Resistivity
4.Ohm’s Law
5.Power in Electric Circuits
6.Semiconductors, Superconductors | 講授、討論。 |
08
04/08
04/09 | Circuits | 1.Pumping Charges
2.Calculating the Current in a Single-Loop Circuit
3.Internal Resistance
4.Potential between two points
5.Multi-loop Circuits
6.Ammeter and Voltmeter
7.RC Circuits | 筆試。 |
09
04/15
04/16 | Midterm Examination | Midterm Examination | 講授、討論。 |
10
04/22
04/23 | Magnetic Fields | 1.What Produces Magnetic Field?
2.Finding the Magnetic Force on a Particle
3.Crossed Fields, Discovery of an Electron
4.Crossed Fields, The Hall Effect
5.A Circulating Charged Particle | 講授、討論。 |
11
04/29
04/30 | Magnetic Fields | 1.Helical Paths
2.Cyclotrons and the Proton Synchrotron
3.Magnetic Force on a Current-Carrying Wire
4.Torque on a Current Loop
5.The Magnetic Dipole Moment | 講授、討論。 |
12
05/06
05/07 | Magnetic Fields due to Currentss | 1.Calculating the Magnetic Field due to a Current
2.Force Between Two Parallel Wires
3.Ampere’s Law
4.Solenoids and Toroids
5.A Current Carrying Coil as a Magnetic Dipole | 講授、討論。 |
13
05/13
05/14 | Induction and Inductance | 1.Faraday’s Law of Induction
2.Lenz’s Law
3.Induction and Energy Transfers
4.Induced Electric Field
5.Inductors and Inductance
6.Inductance of a Solenoid
7.Self-Induction
8.RL Circuits
9.Energy Stored in a Magnetic Field
10.Energy Density of a Magnetic Field
11.Mutual Induction | 講授、討論。 |
14
05/20
05/21 | Electromagnetic Waves | 1.Maxwell’s Rainbow
2.The Traveling Wave
3.Energy Transport and the Poynting Vector
4.Polarization
5.Reflection and Refraction
6.Chromatic Dispersion
7.Total Internal Reflection
8.Polarization by Reflection | 講授、討論。 |
15
05/27
05/28 | Images | 1.Two Types of Image
2.Plane Mirrors
3.Spherical Mirrors
4.Spherical Refracting Surfaces
5.Thin Lenses
6.Optical Instruments | 講授、討論。 |
16
06/03
06/04 | Interference | 1.Light as a Wave
2.Young’s Interference Experiment
3.Coherence
4.Intensity in Double-Slit Interference
5.Interference from Thin Films | 講授、討論。 |
17
06/10
06/11 | Diffraction | 1.Diffraction and the Wave Nature of Light
2.Diffraction from a single slit
3.Intensity in Single-Slit Diffraction Pattern
4.Diffraction by a Circular Aperture
5.Diffraction by a Double Slit
6.Diffraction Gratings | 講授、討論。 |
18
06/17
06/18 | Final Examination | Final Examination | 筆試。 |
◎課程要求:
無 |
◎成績考核
課堂參與討論10%
期中考40%
期末考40%
作業/習題演練10%
補充說明:無 |
◎參考書目與學習資源
Principle of physics, 9th Ed; Halliday & Resnick |
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