IB PHYSICS HL
SAMPLE
Sample 강의
2 Topics
Sample : The First Law of Thermodynamics
Sample : Projectile Motion
Zoom Group Class / 1:1 Q&A
Zoom Group Class
1 Topic
한국기준 일 23:59 – 월 00:30 – 조규연 T
1:1 Q&A
1 Topic
조규연T – 1:1 Q&A
A. Space, time and motion
A.1 Kinematics
7 Topics
A1.1 Motion (1) definition
A1.2 Motion (2) Acceleration
A.1.3 Graphical representation of motion
A.1.4 Unifromly accelerated motion (1) Equation
A.1.5 Uniformly accelerated motion (2) Free Fall
A.1.6 Projectile motion
A.1.7 Fluid resistnace
A.2 Forces and momentum
10 Topics
A.2.1 Forces & Newton’s Laws of Motions
A.2.2 Free body diagram & Equilibrium
A.2.3 Type of forces (1)
A.2.4 Type of forces (2)
A.2.5 Momentum & Impulse
A.2.6 Conservation of momentum
A.2.7(HL) Conservation of momentum 2D
A.2.8 Circular motion (1) Definition
A.2.9 Circular motion (2) Centripetal force
A.2.10 Circular motion (3) Vertical plane
A.3 Work, energy and power
5 Topics
A.3.1 Work and Energy
A.3.2 Power and Kinetic Energy
A.3.3 Gravitational potential energy
A.3.4 Energy conservation
A.3.5 Efficiency & Sankey diagram
A.4 Rigid body mechanics
6 Topics
A.4.1(HL) Kinematics of rotational motion
A.4.2(HL) Torque & Moment of inertia
A.4.3(HL) Equilibrium & Center of mass
A.4.4(HL) Rotational energy
A.4.5(HL) Angular momentum & Impulse
A.4.6(HL) Rolling
A.5 Galilean and special relativity
7 Topics
A.5.1(HL) Reference frame & Galilean relativity
A.5.2(HL) Special relativity & Lorentz transofrmation
A.5.3(HL) Simultaneity & Time dilation
A.5.4(HL) Length contraction & Velocity addition
A.5.5(HL) Invariant quantity & Muon decay
A.5.6(HL) Spacetime diagram (1)
A.5.7(HL) Spacetime diagram (2)
B. The particulate nature of matter
B.1 Thermal energy transfers
4 Topics
B.1.1 Thermal Concepts & Internal Energy
B.1.2 Measuring energy transfer
B.1.3 Thermal energy trasnfer
B.1.4 Radiation
B.2 Greenhouse effect
2 Topics
B.2.1 Radiation from real bodies
B.2.2 Energy Balance of the Earth
B.3 Gas Laws
3 Topics
B.3.1 Basic Properties of Gas
B.3.2 Ideal Gas
B.3.3 Kinetic Model for an Ideal Gas
B.4 Thermodynamics
4 Topics
B.4.1(HL) The First Law of Thermodynamics – Concept
B.4.2(HL) The First Law of Thermodynamics – Practice
B.4.3(HL) The Second Law of Thermodynamics
B.4.4(HL) Heat engines
B.5 Current and circuits
4 Topics
B.5.1 Potential Difference, Current, and Resistance
B.5.2 Voltage, Power, and Electromotive Force
B.5.3 Resistors in Electric Circuits
B.5.4 Various Resistors
C. WAVE BEHAVIOUR
C.1 Simple harmonic motion
3 Topics
C.1.1 Overview of Simple Harmonic Motion (1)
C.1.2 Overview of Simple Harmonic Motion (2)
C.1.3(HL) Details of Simple Harmonic Motion
C.2 Wave model
2 Topics
C.2.1 Travelling Waves & Graphs
C.2.2 Nature of Sound Wave and EM Wave
C.3 Wave phenomena
6 Topics
C.3.1 Reflection and Refraction (1)
C.3.2 Reflection and Refraction (2)
C.3.3 Superposition and Diffraction
C.3.4 Double slit Interference
C.3.5(HL) Single slit diffraction
C.3.6(HL) Advanced Double-Slit and Diffraction Grating
C.4 Standing waves and resonance
3 Topics
C.4.1 Standing waves on strings
C.4.2 Standing waves in pipes
C.4.3 Resonance and Damping
C.5 Doppler effect
2 Topics
C.5.1 The Doppler Effect – Basic Understanding
C.5.2(HL) The Doppler Effect – Advanced Concepts
D. Fields
D.1 Gravitational fields
6 Topics
D.1.1 Fields
D.1.2 Newton’s Law of Gravitation & Gravitational Field
D.1.3 Kepler’s Three Laws of Orbital Motion
D.1.4(HL) Gravitational Potential Energy
D.1.5(HL) Gravitational Potential & Equipotential Surface
D.1.6(HL) Motion in a Gravitational Field
D.2 Electric and magnetic fields
3 Topics
D.2.1 Electric Charge and Force
D.2.2 Electric Field
D.2.3(HL) Electric Potential & Electric Potential Energy
D.3 Motion in electromagnetic fields
3 Topics
D.3.1 Magnetic Force
D.3.2 Motion in a Magnetic Field
D.3.3 Motion in an Electric Field
D.4 Induction
3 Topics
D.4.1(HL) Motional EMF
D.4.2(HL) Faraday’s Law & Lenz’s Law
D.4.3(HL) Alternative Current & Self Induction
E. Nuclear and quantum physics
E.1 Structure of the atom
4 Topics
E.1.1 Atom and Nucleus
E.1.2 Atomic Energy Level
E.1.3(HL) Rutherford Scattering
E.1.4(HL) Bohr Model
E.2 Quantum physics
3 Topics
E.2.1(HL) Photoelectric Effect
E.2.2(HL) Matter Waves
E.2.3(HL) Compton scattering
E.3 Radioactive decay
6 Topics
E.3.1 Mass Defect and Binding Energy
E.3.2 Radioactivity
E.3.3 Radioactive Decay Law
E.3.4 Use of Radioactivity
E.3.5(HL) Radioactive Decay Law 2
E.3.6(HL) Nuclear Force and Decay
E.4 Fission
2 Topics
E.4.1 Nuclear Fission Concept
E.4.2 Nuclear Fission Reactors
E.5 Fusion and stars
4 Topics
E.5.1 Nuclear Fusion Concept
E.5.2 Stellar Evolution 1
E.5.3 Stellar Evolution 2
E.5.4 Astronomical Measurements
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IB PHYSICS HL
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Sample : The First Law of Thermodynamics
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