[2023 개정 ver.] IB Physics HL - Full Set

김도엽 선생님의 New IB Physics - 전문 과정 


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  • A.2.1 Free-Body Diagrams
    13:55
  • A.2.2 Newton's First & Second Law
    17:13
  • A.2.3 Newton's Third Law & Friction
    23:20
  • A.2.4 Fluid friction: Viscosity and Stokes's Law
    24:58
  • A.2.5 Force application: Elevator
    15:31
  • A.2.6 Force application: Two stacked-body
    29:54
  • A.2.7 Force application: Inclined plane
    35:35
  • A.2.8 Force application: Connected Bodies - Tension
    22:41
  • A.2.9 Circular Motion
    19:08
  • A.2.10 Centripetal Acceleration & Centripetal Force
    34:28
  • A.2.11 Centripetal Force Application: Vertical Motion and Banked turn
    26:27
  • A.2.12 Momentum & Conservation of momentum
    40:49
  • A.2.13 Impulse (HL ONLY)
    14:45
  • A.3.1 Kinetic Energy & Gravitational Potential Energy
    23:47
  • A.3.2 Elastic Potential Energy
    21:44
  • A.3.3 Principle of Conservation of Energy
    24:24
  • A.3.4 Work done & Power
    23:22
  • A.3.5 Efficiency & Sankey Diagram
    21:41
  • A.4.1 Torque and equilibrium
    23:23
  • A.4.2 Rotational motion and moment of inertia
    22:52
  • A.4.3 Angular momentum and kinetic energy
    22:28
  • A.5.1 History of relativity and Galilean transformation (HL)
    18:05
  • A.5.2 Lorenz transformation (HL)
    16:07
  • A.5.3 Time dilation and length contranction (HL)
    13:34
  • A.5.4 Space and time diagram (HL)
    16:44
  • B.1.1 Thermal concept: States of matter & Temperature
    31:46
  • B.1.2 Internal Energy & Phase Change
    19:19
  • B.1.3 Thermal Energy Transfer: Conduction & Convection
    41:34
  • B.1.4 Thermal Energy Transfer: Radiation & Black body
    21:31
  • B.1.5 Black body radiation: Wien's Law & Stefan-Boltzmann Law and Star
    39:37
  • B.1.6 Specific Heat Capacity & Specific Latent Heat
    36:58
  • B.2.1 Solar constant, Albedo & Emissivity
    27:33
  • B.2.2 Greenhouse Gas & Molecular Mechanisms
    39:54
  • B.3.1 Ideal Gas Law
    42:04
  • B.3.2 Kinetic Model of ideal gas
    34:48
  • B.4.1 First law of thermodynamics
    33:46
  • B.4.2 Heat engine and Carnot cycle
    18:42
  • B.4.3 Entropy and second law of thermodynamics
    16:48
  • B.5.1 Charge & Current
    39:48
  • B.5.2 Potential difference and Resistance
    32:23
  • B.5.3 Electric Circuit (Series and Parallel connection)
    46:03
  • B.5.4 Kirchhoff's Laws, cells and EMF
    38:45
  • C.2.1 Travelling Wave: Transverse and Longitudinal Wave
    47:35
  • C.3.1 Wave intensity
    14:20
  • C.3.2 Reflection and Refraction
    23:31
  • C.3.3 Diffraction
    12:20
  • C.3.4 Interference and phase difference
    14:16
  • C.3.5 Double slit experiment
    25:26
  • C.3.6 Further double slit experiment (HL ONLY)
    23:41
  • C.3.7 Polarization
    18:25
  • C.3.8 Single Slit Diffraction (HL ONLY)
    34:22
  • C.3.9 Diffraction Gratings (HL ONLY)
    22:14
  • C.3.10 Thin film interference (HL ONLY)
    34:35
  • C.4.1 Standing wave
    35:33
  • C.4.2 Resonance and damping
    15:49
  • C.5.1 Doppler effect
    38:48
  • D.2.1 Electric field force and strength
    31:14
  • D.2.2 Electric field potential and potential energy
    26:33
  • D.3.1 Magnetic field
    18:01
  • D.3.2 Electromagetism (1)
    27:34
  • D.3.3 Electromagetism (2)
    29:58
  • D.3.4 Electromagnetic induction (HL)
    34:25
  • D.3.5 EM induction (AC current and transformer)
    38:05
  • E.2.1 Photoelectric effect (HL)
    28:52
  • E.2.2 Compton scatter (HL)
    13:10
  • E.2.3 de Broglie wavelength (HL)
    11:56
  • E.3.1 Radioactive decay (Stability line and background radiation)
    23:50
  • E.3.2 Alpha, beta and gamma (Decay equation)
    29:03
  • E.3.3 Half life
    13:43
  • E.3.4 Radioactive exponential decay (HL)
    12:50
  • E.3.5 Binding energy
    29:24
  • E.4.1 Fission and nuclear reactor
    16:02
  • E.5.1 Nuclear fusion
    17:57
  • E.5.2 Parallex method and Nucleosythesis
    14:07
설명

김도엽 선생님의 2023년 개정된 NEW IB Physics (HL) 강좌입니다.

 

*김도엽선생님의 강좌는 각 단원별 기본 문제풀이도 포함되어 있습니다!

*얼라이언스 에듀의 모든 IB 과목의 HL 과정 강좌는 SL 내용을 포함하고 있습니다!

 

일시정지 기간: 20일 5회

 

교재 다운받는 방법:

인강 수강 시에 선생님의 핵심 노하우가 담긴 필기용 교재를 학생분께 PDF로 드립니다. 

1) 인강 결제 후에 왼쪽 상단에 있는 "내 강의실"에서 구매한 강의를 누르면 아래 사진과 같은 수강 페이지가 보이게 됩니다. 

2) 각 단원의 첫 번째 영상을 보면 "첨부파일" 버튼이 있는데, 이를 누르면 PDF가 열려서 다운이 가능합니다^^

 

 

질문하기 방법:

인강 수강 시에 강의에서 궁금한 내용을 올리시면 다음날 까지는 답변을 드려요~

선생님의 빠르고 정확한 답변을 위해 학생분들은 아래 형식을 꼭 지켜주세요! 

 

1. 궁금한 부분의 강의 영상 번호 (1.1.1) 

2. 강의 영상의 시간

3. 궁금한 내용을 구체적으로!

 

 

강사 평점

5.0

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