Master advanced physics concepts and excel in the most challenging IB Physics course with comprehensive, research-oriented learning
Course Level
IB Higher Level
Programme Duration
Full Academic Year
Format
Online 1-on-1
Prerequisites
Strong Math & Science
Course Overview
Our IB Physics HL course is designed for ambitious students seeking an in-depth understanding of advanced physics principles. This comprehensive year-long course covers all core topics plus additional Higher Level extensions, emphasizing mathematical rigor, theoretical depth, and sophisticated problem-solving skills essential for success in physics, engineering, and related scientific fields.
IB Physics HL is equivalent to a rigorous first-year university physics course, covering mechanics, thermal physics, waves, electricity and magnetism, atomic and nuclear physics, plus advanced topics in quantum physics, relativity, and astrophysics. The course develops both analytical thinking and advanced mathematical skills while fostering deep scientific understanding.
Higher Level Advantages
Physics HL provides deeper mathematical treatment, additional topics, extended laboratory work, and preparation for advanced university-level physics and engineering programs. HL students are highly sought after by top universities worldwide.
Flexible Scheduling Options
Choose the pace that works best for your learning style and schedule:
Standard Track: 2 Hours/Week
Total: 80 hours over 40 weeks
Perfect for students who prefer steady, manageable coverage throughout the academic year
Intensive Track: 3 Hours/Week
Total: 96 hours over 32 weeks
Ideal for students seeking accelerated learning with extensive practice and deeper exploration
IB Assessment Information
External Assessment (80%): Paper 1 (Multiple Choice - 60 min) + Paper 2 (Structured Questions - 135 min) + Paper 3 (Data Analysis & Option - 75 min)
Internal Assessment (20%): Individual Investigation (10 hours) - Design, conduct, and analyze your own advanced physics experiment
HL assessments require deeper mathematical analysis, complex problem-solving, and comprehensive understanding of advanced physics concepts.
Internal Assessment (IA) Support
Comprehensive guidance for your Individual Investigation including advanced topic selection, sophisticated experimental design, complex data analysis, uncertainty propagation, and professional presentation. We'll help you excel in this crucial component while developing research skills for university.
What Makes Our Course Special
📹
Recorded Sessions
Access to all live session recordings for review and reinforcement at your own pace
💬
WhatsApp Support
24/7 support for complex questions and clarifications outside of scheduled sessions
🔬
Advanced IA Mentorship
Expert support for sophisticated experimental investigations and research projects
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HL Mock Examinations
Rigorous IB HL-style assessments to track progress and build exam confidence
🎯
Advanced Problem Solving
Development of sophisticated analytical and mathematical physics skills
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University Preparation
Rigorous preparation for advanced physics and engineering programs
What You'll Learn
Master all core and Higher Level physics topics with advanced mathematical treatment
Develop sophisticated problem-solving skills using calculus and advanced mathematics
Design and conduct complex scientific investigations with advanced data analysis
Apply advanced physics principles to novel and challenging situations
Communicate complex physics concepts with precision and clarity
Understand cutting-edge physics including quantum mechanics and relativity
Develop research skills essential for university-level physics and engineering
Master advanced exam techniques for all three IB HL assessment papers
Build strong foundation for advanced university physics and related fields
Detailed Course Curriculum
Topic 1: Measurements and Uncertainties 8 hours
Advanced measurement concepts, statistical analysis, and error propagation.
Measurement in physics and SI units
Advanced uncertainties and error analysis
Vectors and scalars with mathematical treatment
Statistical analysis of experimental data
Advanced graphical techniques and curve fitting
Topic 2: Mechanics 22 hours
Advanced mechanics including calculus-based analysis of motion and forces.
Advanced kinematics with calculus treatment
Newton's laws with complex force analysis
Advanced work, energy, and power calculations
Complex momentum and collision problems
Advanced circular motion and gravitation
Topic 3: Thermal Physics 11 hours
Advanced thermal concepts including kinetic theory and thermodynamics.
Advanced thermal concepts and kinetic theory
Detailed gas behavior and molecular motion
Advanced thermodynamics and entropy
Complex heat transfer mechanisms
Thermal efficiency and heat engines
Topic 4: Waves 15 hours
Advanced wave physics including interference, diffraction, and wave equations.
Advanced simple harmonic motion
Complex wave analysis and wave equations
Advanced interference and diffraction
Standing waves and complex resonance
Wave-particle duality concepts
Topic 5: Electricity and Magnetism 15 hours
Advanced electromagnetic theory and complex circuit analysis.
Advanced electric fields and potential
Complex circuit analysis and network theory
Advanced magnetic fields and forces
Electromagnetic induction and applications
AC circuits and complex impedance
Topic 6: Circular Motion and Gravitation 5 hours
Advanced gravitational theory and orbital mechanics.
Advanced circular motion dynamics
Gravitational fields and potential theory
Complex orbital mechanics and Kepler's laws
Advanced satellite motion and tidal forces
Gravitational waves and modern applications
Topic 7: Atomic, Nuclear and Particle Physics 14 hours
Advanced quantum mechanics, nuclear physics, and particle theory.
Advanced quantum mechanics and wave functions
Complex nuclear reactions and binding energy
Advanced radioactive decay and nuclear models
Particle physics and fundamental interactions
Standard model and current research
Topic 8: Energy Production HL Extension8 hours
Advanced energy systems, efficiency, and environmental considerations.
Advanced energy sources and conversion
Power generation and distribution systems
Nuclear power and reactor physics
Renewable energy technologies
Energy storage and efficiency optimization
Topic 9: Wave Phenomena HL Extension17 hours
Advanced wave behavior, interference patterns, and optical phenomena.
Complex interference and diffraction patterns
Advanced polarization and optical instruments
Doppler effect and relativistic considerations
Advanced fiber optics and waveguides
Modern optical technologies and applications
Topic 10: Fields HL Extension11 hours
Advanced field theory including gravitational and electromagnetic fields.
Both tracks include: All sessions, recorded materials, advanced IA mentorship, HL mock exams, WhatsApp support, and comprehensive university preparation resources
Ready to Master IB Physics HL?
Join the elite group of students who have achieved exceptional results in IB Physics HL with our comprehensive tutoring program. This course is designed for ambitious students targeting top universities in physics, engineering, and related scientific fields. With our rigorous approach and expert guidance, you'll develop the advanced analytical skills and deep understanding needed for success in the most challenging physics environments.
IB Physics HL is more than just a course - it's preparation for a career in cutting-edge science and technology. Our program ensures you not only achieve outstanding IB results but also develop the sophisticated thinking skills that will distinguish you in university admissions and beyond.