Outline:
General or Specialized : Specialized
Field of learning :
Handles Maxwell's equations. It also introduces mathematical background information on the vector analysis required for this. Finally, get an understanding of electromagnetic waves.
Required, Elective, etc. : Must complete subjects
Foundational academic disciplines :
Relationship with Educational Objectives :
This class is equivalent to (2) Acquire basic science and technical knowledge
Relationship with JABEE programs :
The main goals of learning / education in this class are "(A) Deepening of basic knowledge about technology, A-1: Acquiring knowledge in a wide range of natural sciences as basic knowledge about engineering. "
Style:
Course method :
Classes will be centered on board writing, but in order to deepen understanding, we will conduct demonstration experiments as much as possible and try to grasp the image of theory. Students are required to make, analyze, or practice simple structures to establish their understanding.
Grade evaluation method :
70% of the four regular exams and 30% of the exercises / reports. Supplementary classes and re-examinations will be imposed on those with poor grades, and the grades of the regular examination will be replaced with a maximum of 60 points.
Supplementary classes and re-examinations will be imposed on those with poor grades, and the regular examination results will be replaced with a maximum of 60 points.
Notice:
Precautions on the enrollment :
Students must take this class (no more than one-third of the required number of class hours missed) in order to complete the 4th year course.
Course advice :
Occasionally review the physics and mathematics that you have taken by the third grade. To solve the problem and attend the class. In order to obtain a versatile solution peculiar to physics, it is indispensable to make an effort to solve it by oneself.
Foundational subjects : Physics I (1 year), Physics II (2), Mechanics I (3), Mathematics subjects in general
Related subjects : Mathematical science (4th year), Analytical mechanics (5), and other specialized subjects in general
Attendance advice :
It is difficult to understand if you have not mastered basic mathematics up to the third grade, so review it from time to time. In particular, differentiation, integration, and vector operations. It is not possible to acquire useful abilities just by copying the answer examples written on the board. It is important to spare no effort to understand.
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Theme |
Goals |
1st Semester |
1st Quarter |
1st |
Guidance / Charge / Coulomb's Law / Electric Field |
Understanding the definition of the electric field
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2nd |
electric force line/ Gauss's law |
Understanding Gauss's Law
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3rd |
Divergence of electric field |
Understanding div
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4th |
Potential gradient / rotation of electric field |
Understanding rot
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5th |
Poisson's formula / Laplace's formula |
Understanding the boundary conditions of electric fields
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6th |
Electric charge and potential / capacitance of conductor system |
Understanding Capacitance
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7th |
Electrostatic energy and electrostatic force |
Understanding Electrostatic Energy
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8th |
1st semester mid-term exam |
Score of 60 points or more
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2nd Quarter |
9th |
Return and commentary of exam answers |
Review
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10th |
Dielectric / polarization / electric field in dielectric |
Understanding of dielectric polarization
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11th |
Energy / force acting on the interface |
Understanding electrostatic energy
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12th |
Electric image method |
Understanding of electrical image method
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13th |
Current / resistance / electrical conduction model |
Understanding the concept of electrical conduction
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14th |
Current and electromotive force ・ Electric circuit and electric power |
Understanding the concept of electric circuits
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15th |
(1st semester final exam) |
Score of 60 points or more
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16th |
Return and commentary of exam answers |
Review
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2nd Semester |
3rd Quarter |
1st |
Guidance / Steady current field and electrostatic field |
Understanding the learning content / Understanding the magnetic field created by magnetic force and electric current
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2nd |
Magnetic Force / Biot-Savart Formula / Gauss's Law |
Understanding the magnetic field created by electric current
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3rd |
Ampere's line integral |
Understanding the magnetic field created by electric current
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4th |
Magnetic position / vector potential |
Understanding of magnetic position
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5th |
Force acting on current in magnetic field |
Understanding Lorentz force
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6th |
Magnetized / magnetic field in magnetic material |
Understanding of magnetic materials
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7th |
Ferromagnet |
Understanding ferromagnets
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8th |
2nd semester mid-term exam |
Score of 60 points or more
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4th Quarter |
9th |
Return and commentary of exam answers |
Review
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10th |
Return and explanation of late mid-term test / Magnetic circuit |
Understanding of electromagnetic induction
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11th |
Electromagnetic induction |
Understanding inductance
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12th |
Inductance |
Understanding of magnetic field energy
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13th |
Magnetic field energy/Displacement current / Maxwell equation |
Understanding Maxwell's equation
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14th |
Electromagnetic waves / Pointing vector |
Understanding electromagnetic waves / Understanding Poynting Vector
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15th |
(2nd semester final exam) |
Score of 60 points or more
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16th |
Return and commentary of exam answers |
Review
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