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SCIENCES Courses for School GPA STARPREP® SCIENCES PROGRAMSAP® Physics C: Electricity and Magnetism

The AP® Physics C: Electricity and Magnetism course outlined in this framework reflects a commitment to what physics teachers, professors, and researchers have agreed is the main goal of a college-level physics course: to help students develop a deep understanding of the foundational principles that shape our understanding of electricity and magnetism. By confronting complex physical situations or scenarios, the course is designed to enable students to develop the ability to reason about physical phenomena using important science practices, such as creating and analyzing representations of physical scenarios, designing experiments, analyzing data, and using mathematics to model and to solve problems.

To foster this deeper level of learning, the AP® Physics C: Electricity and Magnetism course defines concepts, skills, and understandings required by representative colleges and universities for granting college credit and placement. Students will practice reasoning skills used by physicists by discussing and debating, with peers, the physical phenomena investigated in class, as well as by designing and conducting inquiry-based laboratory investigations to solve problems through first-hand observations, data collection, analysis, and interpretation.

AP® Physics C: Electricity and Magnetism

STARPREP®에서 제공하는 AP® Physics C: Electricity and Magnetism 프로그램은 Two phases
(2024 Spring Semester GPA-Boosting Course /TEST-PREP Course)을 제공하고 있습니다.

for Graders 8-12
(STARPREP® course code: APPCE)

Professor
Dr. Jerome E Lee
MIT Mathematical Physics 졸업
KAIST Multi-physics 졸업
티칭 경력 23년차
South Korea Representative (2012-2022), MIT RSI
Active Member in 2022, MAA Mathematical Association of America

Professor
Seongyoon Hong
Seoul National University BS
Seoul National University 석사 졸업
Seoul National University Ph.D. 수료
Mathematics & Sciences Expert 전문강사 6년 이상 경력

Registration Board

High School AP® Physics C: Electricity and Magnetism TEST-PREP

  • Lecture Dates/Registration Status
  • 1:1 Tutoring Online/In-person
    Schedule is flexible

    Registration Status OPEN 등록중 Registration Form 등록 신청서
  • AP® Physics C: Electricity and Magnetism
  • Course Code/Professor(Alma Mater)
  • STARPREP® COURSE CODE : APPCE-01

    ★ Comprehensive Review of the Concepts and Theories Course ★
    개념 및 이론 과정에 대한 종합적인 검토

    Professor
    Dr. Jerome E Lee
    MIT Mathematical Physics 졸업
    KAIST Multi-physics 졸업
    티칭 경력 23년차
    세계 1위 MIT RSI 11년 연속 국내 유일 합격자 독점 배출

    Professor
    Seongyoon Hong
    Seoul National University BS
    Seoul National University 석사 졸업
    Seoul National University Ph.D. 수료
    Mathematics & Sciences Expert 전문강사 6년 이상 경력
  • Features
  • ★ AP® Physics C: Electricity and Magnetism ★
    Comprehensive Review of the Concepts and Theories Course
    개념 및 이론 과정에 대한 종합적인 검토

    Students' Satisfaction : above 99%

    Optimizing Concurrent Classrooms
    (In the Classroom And Online Simultaneously)
  • AP® Physics C: Electricity and Magnetism
Lecture Dates/Registration Status Course Code/Professor(Alma Mater) Features
Lecture Type

1:1 Tutoring Online/In-person
Schedule is flexible

Registration Status OPEN 등록중 Registration Form 등록 신청서 		STARPREP® COURSE CODE : APPCE-01

★ AP® Physics C: Electricity & Magnetism
Comprehensive Review of the Concepts and Theories Course ★
개념 및 이론 과정에 대한 종합적인 검토

Professor
Dr. Jerome E Lee
MIT Mathematical Physics 졸업
KAIST Multi-physics 졸업
티칭 경력 23년차

Professor
Seongyoon Hong
Seoul National University BS
Seoul National University 석사 졸업
Seoul National University Ph.D. 수료
Mathematics & Sciences Expert 전문강사 6년 이상 경력 		★AP® Physics C: Electricity & Magnetism GPA-PREP★

Comprehensive Review of the Concepts and Theories Course
개념 및 이론 과정에 대한 종합적인 검토

Students' Satisfaction : above 99%

Optimizing Concurrent Classrooms
(In the Classroom And Online Simultaneously)
AP® Physics C: Electricity and Magnetism AP® Physics C: Electricity and Magnetism

Curriculum Guide

High School AP® Physics C: Electricity and Magnetism

01 Coulomb's Law and Electric Fields
Due To Point Charges

1-1  Coulomb's Law
1-2  Principle Of Superposition
1-3  Electric Fields And Field Lines
1-4  Electric Potential And Voltage
02 Calculating Electric Fields and Potential
Due To Continuous Charge Distributions

2-1  Calculating The Potential Due To A Continuous Charge Distribution
2-2  Finding The Electric Field Given The Potential
2-3  Calculating The electric Field Due To a Continous Charge Distribution
03 Gauss's Law

3-1  Electric Flux
3-2  Gauss's Law
3-3  Application Of Gauss's Law To Systems With Planar, Cylindrical, and Spherical Symmetry
3-4  Gauss's Law and Conductors
04 Analysis of Circuits
Containing Batteries And Resistors

4-1  Definitions of Current, Direct Velocity, and Resistance
4-2  OHM's Law
4-3  Resistors In Series ad Parallel
4-4  Circuit Analysis: Kirchhoff's Law
4-5  Internal Resistance
05 Capacitors

5-1  Definition Of Capacitors And Capacitance
5-2  Calculation Of Capacitance
5-3  Capacitors In Series And Parallel
5-4  Energy Stored In Capacitors
5-5  Capacitors With Dielectrics
06 RC Circuits

6-1  Analysis Of Circuits Containing Resistors And Capacitors
6-2  Charging A Capacitor
6-3  Discharging A Capacitor
6-4  RC Time Constant
07 Magnetic Fields

7-1  Definition of Magnetic Field and Magnetic Force On A Moving Charge
7-2  Magnetic Force On A Current-Carrying wire
7-3  Magnetic Field Due To A Moving Charge
7-4  Biot-Savart Law: Magnetic Field Due To A Portion of Wire
7-4  Ampere's Law
08 Faraday's Law and Lenz's Law

8-1  Magnetic Flux
8-2  Faraday's Law
8-3  Induced EMF
8-4  Lenz's Law
8-5  Motional EMF
09 Inductors

9-1  Self-Inductance
9-2  Energy Stored In An Inductor
9-3  Circuits Containing Resistors and Inductors
9-4  Circuits Containing Capacitors and Inductors
01 Coulomb's Law and Electric Fields
Due To Point Charges

1-1  Coulomb's Law
1-2  Principle Of Superposition
1-3  Electric Fields And Field Lines
1-4  Electric Potential And Voltage

02 Calculating Electric Fields and Potential
Due To Continuous Charge Distributions

2-1  Calculating The Potential Due To A Continuous Charge Distribution
2-2  Finding The Electric Field Given The Potential
2-3  Calculating The electric Field Due To a Continous Charge Distribution

03 Gauss's Law

3-1  Electric Flux
3-2  Gauss's Law
3-3  Application Of Gauss's Law To Systems With Planar, Cylindrical, and Spherical Symmetry
3-4  Gauss's Law and Conductors

04 Analysis of Circuits
Containing Batteries And Resistors

4-1  Definitions of Current, Direct Velocity, and Resistance
4-2  OHM's Law
4-3  Resistors In Series ad Parallel
4-4  Circuit Analysis: Kirchhoff's Law
4-5  Internal Resistance

05 Capacitors

5-1  Definition Of Capacitors And Capacitance
5-2  Calculation Of Capacitance
5-3  Capacitors In Series And Parallel
5-4  Energy Stored In Capacitors
5-5  Capacitors With Dielectrics

06 RC Circuits

6-1  Analysis Of Circuits Containing Resistors And Capacitors
6-2  Charging A Capacitor
6-3  Discharging A Capacitor
6-4  RC Time Constant

07 Magnetic Fields

7-1  Definition of Magnetic Field and Magnetic Force On A Moving Charge
7-2  Magnetic Force On A Current-Carrying wire
7-3  Magnetic Field Due To A Moving Charge
7-4  Biot-Savart Law: Magnetic Field Due To A Portion of Wire
7-4  Ampere's Law

08 Faraday's Law and Lenz's Law

8-1  Magnetic Flux
8-2  Faraday's Law
8-3  Induced EMF
8-4  Lenz's Law
8-5  Motional EMF

09 Inductors

9-1  Self-Inductance
9-2  Energy Stored In An Inductor
9-3  Circuits Containing Resistors and Inductors
9-4  Circuits Containing Capacitors and Inductors

10 Maxwell's Equations

7-1  Gauss's Law For Magnetism
7-2  Maxwell's Law Of Induction
7-3  Displacement Current
7-4  Ampere-Maxwell Law

How to Register

Click the box below and please submit the google response form

Reference Lectures

AP® Physics C: Electricity and Magnetism

Electric Forces and Fields Electric Potential Energy and Electric Potential
Conductors, Capacitors, and Dielectrics DC Circuits, Also Circuits with Resistors & Capacitors
Understanding Magnetic Fields and Forces Everything You Need to Know about Electromagnetic Induction
Understanding Inductance and Maxwell’s Equations Test-Taking Tips and Strategies
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