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SCIENCES Courses for School GPA STARPREP® SCIENCES PROGRAMSAP® Physics C: Mechanics

The AP® Physics C: Mechanics 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 classical mechanics. 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: Mechanics 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: Mechanics

STARPREP®에서 제공하는 AP® Physics C: Mechanics 프로그램은 총 2개의 SECTORS
(수준별 수업 : For Basics & Concepts / For Test-Prep)으로 나뉘어지며 각 섹터마다 각각의 진도가 정해집니다.

[학생의 성적/수업 이해도에 따라 다른 FIELDS(과목별)/SECTOR(수준별 반)으로의 전환이 이루어집니다.]

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

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

Registration Board

High School AP® Physics C: Mechanics

  • Lecture Dates/Registration Status
  • Lecture Date
    Every Saturday 5:00pm-8:00pm
    starting from August 6, 2022

    Registration Status OPEN Application Form 등록신청서
  • AP® Physics C: Mechanics
  • Course Code/Professor(Alma Mater)
  • STARPREP® COURSE CODE : APPCM-01

    ★ AP® Physics C: Mechanics GPA-Boosting Course ★
    학교 내신점수향상 대비반

    Professor
    Dr. Jerome E Lee
    MIT Mathematical Physics 졸업
    KAIST Multi-physics 졸업
    티칭 경력 23년차
  • Features
  • ★ 2022-2023 AP® Physics C: Mechanics ★
    AP® Physics C: Mechanics GPA-Boosting Course
    학교 내신점수향상 대비반

    Students' Satisfaction : above 99%

    Optimizing Concurrent Classrooms
    (In the Classroom And Online Simultaneously)
  • AP® Physics C: Mechanics
Lecture Dates/Registration Status Course Code/Professor(Alma Mater) Features
Lecture Date
Every Saturday 5:00pm-8:00pm
starting from August 6, 2022

Registration Status OPENApplication Form 등록신청서		 STARPREP® COURSE CODE : APPCM-01

★ AP® Physics C: Mechanics 내신 GPA 대비반 ★

Professor
Dr. Jerome E Lee
MIT Mathematical Physics 졸업
KAIST Multi-physics 졸업
티칭 경력 23년차 		★2022-2023 AP® Physics C: Mechanics GPA-PREP★

AP® Physics C: Mechanics GPA-Boosting Course
학교 내신점수향상 대비반

Students' Satisfaction : above 99%

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

Curriculum Guide

High School AP® Physics C: Mechanics

01 Kinematics

1-1  Kinematics: Motion in One Dimension
1-2  Instantaneous Speed, Velocity, and Acceleration in one Dimension
1-3  Average Speed, Velocity, and Acceleration
1-4  Uniformly Accelerated Motion: Freely Falling Objects
1-5  Kinematics: Motion in Two Dimensions
1-6  Instantaneous Speed, Velocity, and Acceleration in Two Dimension
1-7  Uniformly Accelerated Motion (UAM): Projectile Motion
1-8  Relative Position, Velocity, and Acceleration
1-9  Uniform Circular Motion (UCM)
02 Newton’s Laws of Motion

2-1  Newton’s Laws of Motion: First and Second Law
2-2  Circular Motion
2-3  Newton’s Laws of Motion: Third Law
2-4  Mass vs. Weight
2-5  Application of Newton's Law
03 Work, Energy, and Power

3-1  Definition of Work, Kinetic and Potential Energy, and Power
3-2  Work-Energy Theorem
3-3  Conservative and Nonconservative Forces
3-4  Hooke's Law and Elastic Potential Energy
3-5  Conservation of Mechanical Energy
3-6  Energy Diagrams
04 Systems of Particles and Linear Momentum

4-1  Definition of Linear Momentum
4-2  Newton's Second Law in Terms of Momentum: Impulse
4-3  Conservation of Momentum in the Absence of a Net External Force
4-4  Elastic and Inelastic Collisions
4-5  Center of Mass
4-6  Motion of the Center Mass
05 Rotation I: Kinematics, Force, Work, and Energy

5-1  Definitions of Angular Postion, Velocity, and Acceleration
5-2  Relationships Between Angular and Translational kinematic Quantities
5-3  Torque
5-4  Rotational Analog of Newton's Second Law
5-5  Work and Power in Rotational Motion
06 Rotation II: Inertia, Equilibrium, and Combined Rotation / Translation

6-1  Calculation of moment of Inertia For Complex Objects
6-2  Parallel Axis Theorem
6-3  Angular Momentum
6-4  Newton's Second Law For Rotational motion in Terms of Angular Momentum
6-5  Conservation of Angular Momentum
6-6  Rolling Without Slipping
6-7  Static Equilibrium for Extended Objects
07 Oscillations

7-1  Definition of Simple Harmonic Motion (SHM)
7-2  Physical Systems Exhibiting SHM
7-3  Definitions of Amplitude, Frequency, and Period
7-4  Using Newton's Laws or Conservation of Energy in SHM Problems
08 Universal Gravitation

8-1  Law of Umiversal Graviation
8-2  Principle of Superposition
8-3  Gravitation Due To Spherically Symmetric Masses
8-4  Relationship of g and G
8-5  Kepler's Laws of Planetary Motion
8-6  Gravitational Potential Energy
01 Kinematics

1-1  Kinematics: Motion in One Dimension
1-2  Instantaneous Speed, Velocity, and Acceleration in one Dimension
1-3  Average Speed, Velocity, and Acceleration
1-4  Uniformly Accelerated Motion: Freely Falling Objects
1-5  Kinematics: Motion in Two Dimensions
1-6  Instantaneous Speed, Velocity, and Acceleration in Two Dimension
1-7  Uniformly Accelerated Motion (UAM): Projectile Motion
1-8  Relative Position, Velocity, and Acceleration
1-9  Uniform Circular Motion (UCM)

02 Newton’s Laws of Motion

2-1  Newton’s Laws of Motion: First and Second Law
2-2  Circular Motion
2-3  Newton’s Laws of Motion: Third Law
2-4  Mass vs. Weight
2-5  Application of Newton's Law

03 Work, Energy, and Power

3-1  Definition of Work, Kinetic and Potential Energy, and Power
3-2  Work-Energy Theorem
3-3  Conservative and Nonconservative Forces
3-4  Hooke's Law and Elastic Potential Energy
3-5  Conservation of Mechanical Energy
3-6  Energy Diagrams

04 Systems of Particles and Linear Momentum

4-1  Definition of Linear Momentum
4-2  Newton's Second Law in Terms of Momentum: Impulse
4-3  Conservation of Momentum in the Absence of a Net External Force
4-4  Elastic and Inelastic Collisions
4-5  Center of Mass
4-6  Motion of the Center Mass

05 Rotation I: Kinematics, Force, Work, and Energy

5-1  Definitions of Angular Postion, Velocity, and Acceleration
5-2  Relationships Between Angular and Translational kinematic Quantities
5-3  Torque
5-4  Rotational Analog of Newton's Second Law
5-5  Work and Power in Rotational Motion

06 Rotation II: Inertia, Equilibrium, and Combined Rotation / Translation

6-1  Calculation of moment of Inertia For Complex Objects
6-2  Parallel Axis Theorem
6-3  Angular Momentum
6-4  Newton's Second Law For Rotational motion in Terms of Angular Momentum
6-5  Conservation of Angular Momentum
6-6  Rolling Without Slipping
6-7  Static Equilibrium for Extended Objects

07 Oscillations

7-1  Definition of Simple Harmonic Motion (SHM)
7-2  Physical Systems Exhibiting SHM
7-3  Definitions of Amplitude, Frequency, and Period
7-4  Using Newton's Laws or Conservation of Energy in SHM Problems

08 Universal Gravitation

8-1  Law of Umiversal Graviation
8-2  Principle of Superposition
8-3  Gravitation Due To Spherically Symmetric Masses
8-4  Relationship of g and G
8-5  Kepler's Laws of Planetary Motion
8-6  Gravitational Potential Energy


List of Past Real Tests Previously Administered


Preparation for The 2023 MAY AP® Physics C: Mechanics TEST

How to Register

Click the box below and please submit the google response form

Reference Lectures

AP® Physics C: Mechanics

Understanding Conservation of Momentum Graphs of Potential Energy Curves
Graphing Simple Harmonic Motion Everything You Need to Know about Nonlinear Springs
Deriving Rotational Inertia Oscillations and Simple Harmonic Motion
Angular Momentum & Rotational Collisions Understanding Resistive Forces
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