Hiroshima University Syllabus

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Japanese
Academic Year 2020Year School/Graduate School School of Science
Lecture Code HX333200 Subject Classification Specialized Education
Subject Name 物理学特別講義(エレクトロニクス)
Subject Name
(Katakana)
ブツリガクトクベツコウギ(エレクトロニクス)
Subject Name in
English
Special Lectures in Physics(Electronics)
Instructor IINUMA MASATAKA
Instructor
(Katakana)
イイヌマ マサタカ
Campus Higashi-Hiroshima Semester/Term 2nd-Year,  Second Semester,  4Term
Days, Periods, and Classrooms (4T) Tues1:*SCI Other (See "Message" of the syllabus.), (4T) Tues2,Fri1-2
Lesson Style Lecture Lesson Style
【More Details】
Unification of lectures and experiments. The lectures are given in odd-numbered lessens. Just after those, the experimental works are offered in even-numbered lessens for deeply understanding of the previous lectures.  
Credits 2 Class Hours/Week   Language on Instruction J : Japanese
Course Level 2 : Undergraduate Low-Intermediate
Course Area(Area) 25 : Science and Technology
Course Area(Discipline) 06 : Physics
Eligible Students  
Keywords electromagnetism
oscillation
electric circuit
impedance 
Special Subject for Teacher Education   Special Subject  
Class Status
within Educational
Program
 
Criterion referenced
Evaluation
 
Class Objectives
/Class Outline
Qualitative and quantitative understanding of phenomenon of oscillations in electric circuits through both of lectures and experiments, and developing the ability to understand physical meaning of theoretical equations  
Class Schedule lesson1 Fundamental concepts  - from electromagnetism to electronics -
Review fundamental concepts such as electric potential, potential difference, voltage, current, ground, resistance, alternating-current, oscillation, etc. with the use of physical consideration
lesson2 How to use measuring instruments and experimental equipments
Understand how to use measuring instruments and experimental equipments, such as oscilloscopes, circuit testers, function generators, breadboard, etc.
lesson3 Transient and Alternating-current responses  - capacitors -
Theoretical analysis and physical consideration of transient and AC responses in RC circuits in terms of physical behavior of capacitors
lesson4 Experiments on RC circuits
Understanding RC circuits by observing a waveform with an oscilloscope and comparisons between experimental results and theoretical calculations
lesson5 Transient and Alternating-current responses  - inductor -
Theoretical analysis and physical consideration of transient and AC responses in RL circuits in terms of physical behavior of inductors
lesson6 Experiments on RL circuits
Understanding RL circuits by observing a waveform with an oscilloscope and comparisons between experimental results and theoretical calculations
lesson7 Transient and Alternating-current responses  - LC resonant circuit -
Review of resonance phenomenon in mechanics and physical behavior of L and C, and theoretical analysis and physical consideration of transient and AC responses in LC resonant circuits
lesson8 Experiments on LC resonant circuits
Understanding LC resonant circuits and phenomenon of resonance by observing a waveform with an oscilloscope and comparisons between experimental results and theoretical calculations
lesson9 Introduction of nonlinear devices
Learning physical characteristics of transistors and theoretical analysis of grounded-emitter amplifiers
lesson10 Experiments on voltage amplifier circuits
Understanding grounded-emitter amplifiers by observing a waveform with an oscilloscope and comparisons between measurement results and theoretical calculations
lesson11 Current amplifier
Theoretical analysis of current amplifier and understanding input and output impedance and the relation between a load and the output impedance
lesson12 Experiments on current amplifier circuits
Understanding emitter-follower circuits by observing a waveform with an oscilloscope and comparisons between measurement results and theoretical calculations
lesson13 Nonlinear phenomenon by feedback  - positive and negative feedback –
Learn basic concepts of feedback and theoretical analysis of nonlinear phenomenon caused by the feedback
lesson14 Experiments on oscillating circuits
Understanding oscillating circuits by comparing the observed waveform with theoretical calculations
lesson15 Introduction of high frequency circuits  - from oscillation to wave propagation –
In high frequency circuits, the wave propagation appears instead of merely alternating-current oscillations. Learning fundamentals of transmission and developing the oscillation concepts into the wave propagation concepts

Submission of reports are required 
Text/Reference
Books,etc.
Distribute materials needed for the class 
PC or AV used in
Class,etc.
Include works of listening sounds 
Suggestions on
Preparation and
Review
Prepare a laboratory notebook, a PC or a scientific calculator for each lessen
Learn the contents of materials distributed before odd-numbered lessens.
Review the contents of a previous odd-numbered lessen before even-numbered lessens. 
Requirements  
Grading Method Attitude in the class and contents of the reports are evaluated comprehensively. Further, students are required to attend all lessens because of the unified class of lectures and experiments.   
Practical Experience  
Summary of Practical Experience and Class Contents based on it  
Message The classes are in the experiment room C110.
If the number of applicants are too many, there is a possibility of limiting the number of students.  
Other   
Please fill in the class improvement questionnaire which is carried out on all classes.
Instructors will reflect on your feedback and utilize the information for improving their teaching. 
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