Plan

Stage I: The Foundation

Goal: Mastering the rules of the universe before trying to bend them.

1.1 Mathematics

• Pure Mathematics: Trigonometry, Coordinate Geometry, Series

• Calculus: Differentiation, Integration

• Vectors: Addition, Dot Product, Cross Product

1.2 Physics & Chemistry

• Classical Mechanics: Newton’s Laws, Work-Energy Theorem, Momentum

• Electrostatics: Coulomb’s Law, Electric Field, Electric Potential

• Atomic Structure: Ionisation Energies, Electron Shells

• Materials Science: Tensile Strength, Young’s Modulus, Thermal Expansion

Stage II: Core Engineering

Goal: Understanding how fluids move and how fields interact.

2.1 Applied Mathematics

• Multivariable Calculus: Grad, Div, Curl

• Differential Equations

• Linear Algebra: Matrices

2.2 Electromagnetism

• Maxwell’s Equations

• Gauss's Law

• Faraday’s Law

• High Voltage Engineering: Paschen's Law, Dielectric Polarisation

2.3 Aerodynamics & Thermodynamics

• Fluid Mechanics: Navier-Stokes Equations

• Compressible Flow: Shock Waves, Prandtl-Glauert Singularity

Stage III: Specialised Advanced Learning

Goal: Diving into the "Alternative" domain with academic rigour.

3.1 Plasma Physics

• Drift Velocity

• Space-Charge Limited Current: Child-Langmuir Law

• Electrohydrodynamics (EHD)

• Magnetohydrodynamics (MHD)

3.2 Relativity & Gravitation

• Special Relativity

• The Equivalence Principle

• The Stress-Energy Tensor

• General Relativity

• Gravitoelectromagnetism (GEM)

Stage IV: The Frontier

Goal: Investigating the "Unexplained" and the "Cutting Edge".

4.1 Electrogravitic Deep-Dive

• Biefeld-Brown Effect

• Asymmetric Capacitors: Quantum Vacuum, Zero-Point Field

• Superconducting Gravity Research

4.2 Simulation Software

• Multiphysics Simulation: COMSOL Multiphysics