Year 12 Physics Tutoring in NSW & Online
Master the complex calculations and conceptual depth required for Band 6 performance and engineering prerequisites
Year 12 Physics separates future engineers from those who’ll struggle with university science. With trials approaching and HSC marks determining course entry, every assessment becomes critical. Topics like electromagnetic induction and special relativity demand mathematical sophistication and conceptual mastery that most students lack. Our program rapidly builds the problem-solving precision, mathematical fluency, and deep understanding that transforms Physics from a mark-killer into your competitive advantage.
Weekly Theory Lessons with Premium Booklets
Students receive expertly structured weekly lessons supported by comprehensive booklets. These materials are designed to help students become top performers by mastering core concepts step-by-step. We conduct regular assessments and provide live, interactive feedback to ensure every child progresses confidently.
Online Learning That Works.
Our online classes deliver the same (or better) results as face-to-face learning. No time wasted on travel, flexible scheduling, access to recordings, and consistent access to Sydney’s best tutors—right from your home.
Expert Teachers Who Know the NSW Syllabus
Our tutors are handpicked specialists who not only understand the syllabus but also know how to teach it in a way that clicks. Their experience and personalised approach make all the difference.
Term-by-Term Outline
Module 5 – Advanced Mechanics (Oct–Dec)
This term deepens students’ understanding of motion by introducing projectile and circular motion, as well as rotational dynamics. Students explore gravitational fields and the physics behind satellites and orbital systems.
- Projectile motion in two dimensions
- Circular motion and dynamics
- Torque, angular momentum, and rotational motion
- Gravitational fields, Kepler’s laws, and satellite motion
- Energy transformations in orbital systems
Outcome:
Students will confidently apply advanced mechanics to solve problems involving rotation, orbits, and projectile motion, laying a strong foundation for Year 12 assessments.
Module 6 – Electromagnetism (Feb–Apr)
This module explores the interaction of electric and magnetic fields and how they power modern technologies. Students investigate motors, generators, and the laws governing electromagnetic induction.
- Electric and magnetic fields and their properties
- Motors, generators, and transformers
- Faraday’s Law and Lenz’s Law
- Electromagnetic induction and applications
- Power generation and transmission
Outcome:
Students will understand and apply electromagnetic principles to real-world systems, gaining insight into how electricity is generated, transformed, and used in technology.
Module 7 – The Nature of Light (Apr–Jun)
This term focuses on the dual nature of light, exploring the evolution of quantum theory and the rise of modern physics. Students examine wave-particle duality, the photoelectric effect, and early quantum experiments.
- Interference, diffraction, and wave-particle duality
- Photoelectric effect and calculation of Planck’s constant
- Atomic spectra and the development of atomic models
- Introduction to Special Relativity: time dilation and length contraction
Outcome:
Students will gain a strong conceptual understanding of quantum mechanics and relativity, essential for bridging classical and modern physics.
Module 8 – From the Universe to the Atom (Jul–Sept)
In the final term, students explore nuclear reactions, particle physics, and cosmology. This module ties together all prior learning, offering a grand narrative from subatomic particles to the structure of the universe.
- Nuclear reactions: alpha, beta, and gamma decay
- The Standard Model: quarks, leptons, fundamental forces
- Stellar evolution, fusion/fission, and Big Bang theory
- Cosmological models and evidence for an expanding universe
Outcome:
Students will be able to describe key physical processes from atomic to cosmic scales and evaluate models that explain the structure and origins of the universe.
Pricing
Group Classes (Maximum 5 Students)
Term Course: 12 weekly lessons-
Maximum of 5 students per class for optimal attention
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NSW syllabus-aligned content, covering key focus areas
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Theory and workbook
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Free trial session available
1-on-1 Private Tutoring
Term Course: 12 weekly lessons-
Complete, personalized attention for each student
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NSW syllabus-aligned content
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Regular progress tracking and parent feedback
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Theory and workbook
Ready to See the Difference? Book a Trial Lesson
Experience our proven teaching methodology with a complimentary trial lesson designed for your child's academic needs.