Introduction

IB Physics is two year course (Standard Level or Higher Level) that provide students essential foundation knowledge of Physics field.
The course covers measurement and uncertainties, mechanics, thermal physics, waves, electricity and magnetism, circular motion and gravitation, and energy production. Students also investigate atomic, nuclear, and particle physics, as well as wave phenomena, fields, electromagnetic induction, and quantum and nuclear physics. Additional options include relativity, engineering physics, imaging and astrophysics. Students will be guided to practice independent learning and problem solving in preparation for the IB examination.

Objectives
Systematize the core knowledge of the subject
Become familiar with most IB exam formats
Reduce pressure and study time
Improve scores effectively
Enhance independant thinking
Create a solid foundation for higher education
Characteristics
Quality teachers with extensive knowledge about students psychology
Teaching programs are based on international standards
Exclusive materials that closely follow the IB formats
Personalized teaching method according to student progress
Commitment on IB pass grade
EE, IA, TOK completion support
Course content
Topic 1: Measurements and Uncertainties
1.1 Measurement in physics
1.2 Uncertainties and errors
1.3 Vectors and scalars
Topic 2: Mechanics
2.1 Motion
2.2 Forces
2.3 Work, energy and power
2.4 Momentum and impulse
Topic 3: Thermal Physics
3.1 Thermal concepts
3.2 Modelling a gas
Topic 4: Waves
4.1 Oscillations
4.2 Travelling waves
4.3 Wave characteristics
4.4 Wave behaviour
4.5 Standing waves
Topic 5: Electricity and Magnetism
5.1 Electric Fields
5.2 Heating effect of electric currents
5.3 Electric cells
5.4 Magnetic fields
Topic 6: Circular Motion and Gravitation
6.1 Circular motion
6.2 The law of gravitation
Topic 7: Atomic, Nuclear and Particle Physics
7.1 Discrete energy and radioactivity
7.2 Nuclear reactions
7.3 The structure of matter
Topic 8: Energy Production
8.1 Energy sources
8.2 Thermal energy transfer
Topic 9: Wave Phenomena (HL)
9.1 Simple harmonic motion
9.2 Single-slit diffraction
9.3 Interference
9.4 Resolution
9.5 The Doppler effect
Topic 10: Fields (HL)
10.1 Describing fields
10.2 Fields at work
Topic 11: Electromagnetic Induction (HL)
11.1 Electromagnetic induction
11.2 Transmission of power
11.3 Capacitance
Topic 12: Quantum and Nuclear Physics (HL)
12.1 The interaction of matter with radiation
12.2 Nuclear physics

Student achievement

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