1. To be able to explain electric charge and Coulomb's law, and to be able to calculate the force acting on a point charge, etc.
2. To be able to explain electric field, electric potential, line of electric force, and electric flux, and to be able to make calculations using them.
3. To be able to explain Gauss's law and use it to calculate electric fields.
4. To be able to explain the properties of conductors and calculate the charge density and electric field on the surface of conductors.
5. To be able to explain capacitance, connection, energy and force of a capacitor, and to be able to make calculations using them.
Outline:
Electromagnetism is one of the most important disciplines that brought about the current technological society, and is the most important basic subject for electrical students, along with electric circuit theory. The goal of this course is to master the theory of electro-magnetic phenomena and to develop the basic skills necessary to take electrical and electronic engineering courses.
Style:
Many practice problems will be included to understand the concepts one by one.
62 hours of class time.
Notice:
There are many subjects related to electricity and magnetism in the electrical field. This lecture is the first subject to start the course, so please make sure to review and prepare well for the lecture.
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Theme |
Goals |
1st Semester |
1st Quarter |
1st |
charge |
Explain electric charge and Coulomb's law.
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2nd |
charge |
Can calculate the force acting on a point charge, etc.
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3rd |
charge |
Can calculate the force acting on a point charge, etc.
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4th |
Electrostatic field in vacuum |
Explain electric fields, potentials, lines of electric force, and electric fluxes.
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5th |
Electrostatic field in vacuum |
Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
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6th |
Electrostatic field in vacuum |
Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
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7th |
Electrostatic field in vacuum |
Can perform calculations using electric fields, potentials, lines of electric force, and electric fluxes.
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8th |
midterm examination |
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2nd Quarter |
9th |
Electrostatic field in vacuum |
Explain equipotential surfaces and Gauss's law.
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10th |
Electrostatic field in vacuum |
Explain equipotential surfaces and Gauss's law.
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11th |
Electrostatic field in vacuum |
Can calculate electric fields using Gauss's law.
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12th |
Electrostatic field in vacuum |
Can calculate electric fields using Gauss's law.
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13th |
Electrostatic field in vacuum |
Can calculate electric fields using Gauss's law.
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14th |
Electrostatic field in vacuum |
Can explain and calculate the charge distribution and electric field of a charged conductor.
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15th |
Electrostatic field in vacuum |
Can explain and calculate the charge distribution and electric field of a charged conductor.
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16th |
Return of final examinations at the end of the first semester |
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2nd Semester |
3rd Quarter |
1st |
Conductor systems and capacitance |
Be able to explain the properties of conductors and calculate the charge density and electric field on the surface of a conductor.
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2nd |
Conductor systems and capacitance |
Be able to explain the properties of conductors and calculate the charge density and electric field on the surface of a conductor.
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3rd |
Conductor systems and capacitance |
Can explain capacitance and calculate capacitance of capacitors.
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4th |
Conductor systems and capacitance |
Can explain capacitance and calculate capacitance of capacitors.
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5th |
Conductor systems and capacitance |
Can explain capacitance and calculate capacitance of capacitors.
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6th |
Conductor systems and capacitance |
Can explain capacitance and calculate capacitance of capacitors.
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7th |
Conductor systems and capacitance |
Can explain capacitance and calculate capacitance of capacitors.
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8th |
midterm examination |
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4th Quarter |
9th |
Conductor systems and capacitance |
Explain electrostatic energy.
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10th |
Conductor systems and capacitance |
Explain electrostatic energy.
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11th |
Conductor systems and capacitance |
Explain electrostatic energy.
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12th |
Conductor systems and capacitance |
Explain electrostatic energy.
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13th |
Conductor systems and capacitance |
Explain the forces acting on charged conductors.
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14th |
Conductor systems and capacitance |
Explain the forces acting on charged conductors.
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15th |
Conductor systems and capacitance |
Explain the forces acting on charged conductors.
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16th |
Return of final examinations at the end of the first semester |
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