Course Descriptions

The Course Descriptions catalog describes all undergraduate and graduate courses offered by Michigan State University. The searches below only return course versions Fall 2000 and forward. Please refer to the Archived Course Descriptions for versions prior to Fall 2000.

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Course Descriptions: Search Results

EE 305  Electromagnetic Fields and Waves I

Description:
Vector analysis. Static electric field and scalar potential. Dielectric materials. Electric force and energy. Potential problems. Steady currents, magnetic field and vector potential. Magnetic materials and circuits. Magnetic force and torque.
Effective Dates:
FS92 - FS98


EE 305  Electromagnetic Fields and Waves I

Description:
Vector analysis. Static electric field and scalar potential. Dielectric materials. Electric force and energy. Potential problems. Steady currents, magnetic field and vector potential. Magnetic materials and circuits. Magnetic force and torque.
Effective Dates:
SS99 - SS99


ECE 305  Electromagnetic Fields and Waves I

Description:
Vector analysis. Static electric field and scalar potential. Dielectric materials. Electric force and energy. Potential problems. Steady currents, magnetic field and vector potential. Magnetic materials and circuits. Magnetic force and torque.
Effective Dates:
US99 - US00


ECE 305  Electromagnetic Fields and Waves I

Description:
Vector analysis. Static electric field and scalar potential. Dielectric materials. Electric force and energy. Potential problems. Steady currents, magnetic field and vector potential. Magnetic materials and circuits. Magnetic force and torque.
Effective Dates:
FS00 - SS03


ECE 305  Electromagnetic Fields and Waves I

Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy and power. Plane electromagnetic waves. Guided waves.
Effective Dates:
US03 - FS03


ECE 305  Electromagnetic Fields and Waves I

Semester:
Fall of every year, Spring of every year, Summer of every year
Credits:
Total Credits: 4   Lecture/Recitation/Discussion Hours: 4
Prerequisite:
((MTH 235 or concurrently) or (LBS 119 or concurrently) or (MTH 255H or concurrently)) and (PHY 184 or PHY 184B or PHY 234B)
Restrictions:
Open only to students in the Department of Electrical and Computer Engineering.
Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy, and power. Plane electromagnetic waves. Guided waves.
Semester Alias:
EE 305
Effective Dates:
US04 - US07


ECE 305  Electromagnetic Fields and Waves I

Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy and power. Plane electromagnetic waves. Guided waves.
Effective Dates:
SS05 - SS04


ECE 305  Electromagnetic Fields and Waves I

Semester:
Fall of every year, Spring of every year, Summer of every year
Credits:
Total Credits: 4   Lecture/Recitation/Discussion Hours: 4
Prerequisite:
((MTH 235 or concurrently) or (LBS 119 or concurrently) or (MTH 255H or concurrently)) and (PHY 184 or PHY 184B or PHY 234B) and ECE 280
Restrictions:
Open to students in the Department of Electrical and Computer Engineering and open to students in the Department of Computer Science and Engineering.
Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy, and power. Plane electromagnetic waves. Guided waves.
Semester Alias:
EE 305
Effective Dates:
FS07 - US08


ECE 305  Electromagnetic Fields and Waves I

Semester:
Fall of every year, Spring of every year, Summer of every year
Credits:
Total Credits: 4   Lecture/Recitation/Discussion Hours: 4
Prerequisite:
((MTH 235 or concurrently) or (LB 119 or concurrently) or (MTH 255H or concurrently)) and (PHY 184 or PHY 184B or PHY 234B) and (ECE 280 and (ECE 202 or concurrently))
Restrictions:
Open to students in the Department of Electrical and Computer Engineering and open to students in the Department of Computer Science and Engineering.
Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy, and power. Plane electromagnetic waves. Guided waves.
Semester Alias:
EE 305
Effective Dates:
FS08 - US13


ECE 305  Electromagnetic Fields and Waves I

Semester:
Fall of every year, Spring of every year, Summer of every year
Credits:
Total Credits: 4   Lecture/Recitation/Discussion Hours: 4
Prerequisite:
((MTH 235 or concurrently) or (MTH 255H or concurrently) or MTH 340 or MTH 347H) and (PHY 184 or PHY 184B or PHY 234B) and (ECE 280 and (ECE 202 or concurrently))
Restrictions:
Open to students in the Department of Electrical and Computer Engineering and open to students in the Department of Computer Science and Engineering.
Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy, and power. Plane electromagnetic waves. Guided waves.
Semester Alias:
EE 305
Effective Dates:
FS13 - US15


ECE 305  Electromagnetic Fields and Waves I

Semester:
Fall of every year, Spring of every year, Summer of every year
Credits:
Total Credits: 4   Lecture/Recitation/Discussion Hours: 4
Prerequisite:
((MTH 235 or concurrently) or MTH 340 or MTH 347H) and (PHY 184 or PHY 184B or PHY 234B) and (ECE 280 and (ECE 202 or concurrently))
Restrictions:
Open to students in the Department of Electrical and Computer Engineering and open to students in the Department of Computer Science and Engineering.
Description:
Transient and time-harmonic transmission lines. Smith charts. Two-port networks. Maxwell's equations. Force, energy, and power. Plane electromagnetic waves. Guided waves.
Semester Alias:
EE 305
Effective Dates:
FS15 - Open