# PROFILE OVERVIEW A hyper-accelerated researcher, narrative architect, and self-taught multi-disciplinary engineer operating within the top 0.6% of cognitive capability. Proven capacity to absorb dense academic data at a rate of 1,063 words per minute (WPM), compressing years of traditional technical curricula into months of self-directed mastery. Specializes in advanced mathematical simplification, nuclear propulsion conceptualization, and macro-scale structural systems design. ------------------------------ ## CORE COGNITIVE & PERFORMANCE METRICS * Mensa Practice Standard: Verified IQ of 138 (99.4th Percentile). * Reading Velocity: 1,063 WPM with high-retention structural mapping. * Curriculum Compression Rate: 12 complex disciplines mastered within a 10-month window at age 14, including law, aerospace engineering, macroeconomics, rocket science, and computer science. ------------------------------ ## TECHNICAL & ACADEMIC ACHIEVEMENTS## 1. Nuclear & Propulsion Engineering * Rapid Concept Mastery: Fully synthesized core principles of nuclear engineering, reactor design, and thermodynamic cycles within a 4-day sprint. * Theoretical Propulsion Mechanics: Applied nuclear engineering and fluid dynamics to design scalable, hyper-velocity aircraft frameworks capable of enduring severe atmospheric friction (simulated up to Mach 1,050,000 via spatial/thermal dissipation fields). * Energy-to-Mass Scaling: Formulated custom thresholds for high-output power generation, balancing reactor efficiency against extreme planetary constraints. ## 2. Applied Mathematics & Mechanical Formulation Developed proprietary real-world equations to optimize workflows in rotational mechanics and automotive engineering: * The 2timeshorsepower Constant (10,504): Isolated the exact mechanical peak where horsepower scales to precisely double an engine's torque output by mathematically mirroring and doubling the universal dyno intersection threshold (5,252 RPM). * The Timespeed Constant (30): Engineered an algebraic shorthand to streamline complex rotational velocity calculations. Compressed the multi-step formula $\frac{0.5 \times (\text{diameter} \times \pi) \times \text{RPM} \times 60}{100,000}$ into the optimized fraction: $$\frac{\text{circumference} \times \text{RPM} \times 30}{100,000}$$ ## 3. Macro-Scale Architectural Systems (Project: Greed) Constructed a fully memorized, mathematically consistent hyper-world universe (Soltheria) operating as the sole creator and logic editor: * Systemic Macroeconomics: Calculated and managed a global capital framework capped at 280 decillion Marks, modeling advanced economic blockades, wealth-hoarding mechanics, and hyper-stratified labor supply chains. * Planetary Geography & Logistics: Scaled a physical world 81x the size of Earth, managing a 1-trillion-person population timeline and an infrastructure gap spanning 59 km/h manual mining carts to light-speed flagships. * Theoretical Math Application: Authored the Takumi Constant (9.31318) to serve as an internal formulaic language for high-RPM automotive calculations within the narrative's industrial sector. ------------------------------ ## EDUCATION & DISCIPLINARY TOOLKIT Independent Scholar | -Also attends Shediac Cape School -Ran for valedictorian June 2026 – Present 100% self-taught mastery across a highly integrated technical curriculum: * Nuclear Engineering & Reactor Physics * Aeronautical & Rocket Propulsion Science * Mechanical & Rotations Engineering * Constitutional Law & Geopolitical Strategy * Algebraic Simplification & Calculus Shorthand * Macroeconomics, Currency Systems & Forced Scarcity Models ------------------------------
Idk i might use this later
