We are offering a personalized 15-hour tutoring package (mostly 2-hour sessions) designed to help high school students excel in AP Physics 2: a continuation of AP Physics 1, covering fluids, thermodynamics, electricity, magnetism, optics, and modern physics.
This course is fully customizable—students may choose to work through the full curriculum or focus exclusively on specific topics they find most challenging. Each session includes targeted instruction, detailed concept breakdowns, guided problem-solving, and proven strategies for mastering AP-level questions.
Topics That May Be Covered:
– Fluid Mechanics: Understand the principles governing pressure, buoyancy, fluid flow, and Bernoulli’s equation, with applications ranging from hydraulics to biology.
– Thermodynamics: Explore heat, energy transfer, specific heat, thermal expansion, and the laws of thermodynamics through conceptual and quantitative practice.
– Electrostatics: Master electric charge, electric fields, electric potential, and Coulomb’s law, with practice in both point charges and distributed systems.
– Electric Circuits: Analyze DC circuits with resistors and capacitors, applying Ohm’s Law and Kirchhoff’s rules to understand current, voltage, and energy in circuits.
– Magnetism & Electromagnetism: Study magnetic fields, forces on moving charges, electromagnetic induction, and how changing magnetic fields create electric currents.
– Optics: Dive into the behavior of light through lenses and mirrors, and explore reflection, refraction, interference, diffraction, and polarization.
– Modern Physics: Learn foundational concepts of quantum physics, atomic and nuclear structure, the photoelectric effect, and mass-energy equivalence (E = mc²).
What You’ll Gain:
A solid grasp of AP Physics 2 concepts and how they connect to real-world phenomena.
Increased confidence in solving complex, multi-step physics problems.
Flexible support tailored to the student’s strengths and weaknesses.
Thorough preparation for the AP exam, including test-taking techniques.
Readiness for future college-level physics and engineering coursework.
