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Advanced Physics Studies – Year 12

Advanced Physics Studies – Year 12

By admin Categories: Physics
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About Course

Course Overview: Welcome to the world of advanced physics studies! In this course, students will delve into complex topics such as quantum mechanics, electromagnetic theory, thermodynamics, relativity, and modern physics. Through interactive simulations, real-world applications, and hands-on experiments, students will deepen their understanding of the fundamental principles that shape the universe.

What Will You Learn?

  • In this Year 12 Physics course, students will embark on a captivating exploration of advanced physics principles. Through theoretical analysis, practical experiments, and interactive simulations, they will develop a deep understanding of the universe's fundamental laws. By the end of the course, students will be equipped with the skills and knowledge necessary to tackle intricate physics problems and explore the forefront of scientific research.

Course Content

Lesson 1: Wave-Particle Duality and Quantum States
o Understanding wave-particle duality, superposition, and quantum states.

  • Wave-Particle Duality and Quantum States

Lesson 2: Quantum Operators and Observables
o Exploring operators, observables, and the mathematical framework of quantum mechanics.

Lesson 3: Electrostatics and Magnetostatics
o Investigating Gauss's law, Ampère's law, and applications of electric and magnetic fields.

Lesson 4: Electromagnetic Waves and Maxwell’s Equations
o Understanding electromagnetic waves, displacement current, and the complete set of Maxwell's equations.

Lesson 5: Laws of Thermodynamics
o Exploring the laws of thermodynamics, heat engines, and entropy.

Lesson 6: Statistical Mechanics and Microstates
o Understanding statistical distributions, entropy in statistical mechanics, and Boltzmann's formula.

Lesson 7: Special Relativity and Lorentz Transformations
o Investigating time dilation, length contraction, and relativistic effects.

Lesson 8: General Relativity and Curved Space-Time
o Exploring Einstein's field equations, space-time curvature, and gravitational lensing.

Lesson 9: Quantum Mechanics of Atoms
o Understanding atomic spectra, quantum numbers, and electron configurations.

Lesson 10: Quantum Mechanics of Nuclei and Particles
o Investigating nuclear physics, particle interactions, and fundamental forces.

Lesson 11: Quantum Applications and Technology
o Exploring quantum cryptography, quantum computing, and nanotechnology.

Lesson 12: Research Project and Presentations
o Collaborating on research projects, conducting experiments, and presenting findings.

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