AP Physics 2:
Algebra-Based

Introduction

AP Physics 2: Algebra-Based expand your understanding of Physics as you explore topics such as fluids; thermodynamics; electric force, field, and potential; electric circuits; magnetism and electromagnetic induction; geometric and physical optics; and quantum, atomic, and nuclear physics. You’ll do hands-on and inquiry-based in-class activities and laboratory work to investigate phenomena.

Objectives

Systematize the core knowledge of the subject

Become familiar with most AP 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 AP formats

Personalized teaching method according to student progress

Commitment on AP pass grade

AP exam registration support

Course content

Unit 1: Fluids: Pressure and Forces

1.1 Fluid systems

1.2 Density

1.3 Pressure and forces

1.4 Fluids and free-body diagrams

1.5 Buoyancy

1.6 Conservation of energy in fluid flow

1.7 Conservation of mass flow rate in fluids

Unit 2: Thermodynamics

2.1 Thermodynamic systems

2.2 Pressure, thermal equilibrium, and the Ideal Gas Law

2.3 Thermodynamics and forces

2.4 Heat and energy transfer

2.5 Thermodynamics and collisions

2.6 Probability, thermal equilibrium, and entropy

Unit 3: Electric Force, Field, and Potential

3.1 Electric systems and charge

3.2 Charge distribution: Friction, conduction, and induction

3.3 Electric permittivity

3.4 Electric forces and free-body diagrams

3.5 Gravitational and electromagnetic forces

3.6 Electric charges and fields

3.7 Conservation of electric energy

Unit 4: Electric Circuits

4.1 Definition and conservation of electric charge

4.2 Resistivity and resistance

4.3 Resistance and capacitance

4.4 Kirchhoff’s loop rule

4.5 Kirchhoff’s junction rule and the conservation of electric charge

Unit 5: Magnetism and Electromagnetic Induction

5.1 Magnetic systems

5.2 Magnetic permeability and magnetic dipole moment

5.3 Vector and scalar fields

5.4 Monopole and dipole fields

5.5 Magnetic fields and forces

5.6 Forces review

5.7 Magnetic flux

Unit 6: Geometric and Physical Optics

6.1 Waves

6.2 Electromagnetic waves

6.3 Periodic waves

6.4 Refraction, reflection, and absorption

6.5 Images from lenses and mirrors

6.6 Interference and diffraction

Unit 7: Quantum, Atomic, and Nuclear Physics

7.1 Systems and fundamental forces

7.2 Radioactive decay

7.3 Energy in modern physics (energy in radioactive decay and E=mc2)

7.4 Mass–energy equivalence

7.5 Properties of waves and particles

7.6 Photoelectric effect

7.7 Wave function and probability

Choose a form of study

Small class

Private tutoring group

1 plus 1

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