Moto Morphosis Zone
Engineer Tomorrow’s Mobility.
Welcome to the Automobile Zone, a future-forward learning space where curious learners transform into vehicle innovators. This isn’t just a garage, it’s a comprehensive engineering bay for exploring electric vehicles, mobility robotics, combustion technology, and smart transport ecosystems. From dismantling real engines and battery packs to building scaled EV prototypes and programming autonomous vehicles, learners gain hands-on expertise in designing, powering, and driving the vehicles of tomorrow. The lab also incorporates adrenaline-pumping automobile adventure activities for immersive, real-world learning.
What They'll DO
Mechanical Mastery
Disassemble and study combustion engines, electric motors, and gear systems
Build and test EV battery modules and charging circuits
Assemble smart mobility prototypes such as go-karts, hoverboards, and ATVs
Master elite vehicle care including oil changes, brake tuning, and tire alignment
Advanced Engineering
Unlock engine performance upgrades: turbocharging, ECU optimization, custom suspension
Create automotive masterpieces with custom paint finishes, designer lighting, and interior upgrades
Calibrate advanced ADAS safety systems including lane assist and collision avoidance
Diagnose complex vehicle
issues using OBD-II scanners and advanced diagnostic tools
Autonomous & Digital Systems
Design farm-to-market models including pricing, packaging, and brand strategy
Learn personalized nutrition science based on individual health and age profiles
Compare organic, hybrid, and synthetic farming approaches for sustainability
Conduct gene-editing and food engineering simulations exploring advanced biotech
Extreme Mobility & Adventure
Experience motocross riding on custom dirt tracks
Study F1 car and MotoGP bike engineering and design
Participate in mountain biking and off-road ATV racing
Engage in sand dune bashing and sandboarding with mobility gear
What They'll Learn
Automotive Systems Fundamentals
Understand mechanical and electrical systems of combustion and electric vehicles
Learn vehicle design, aerodynamics, and ergonomic principles
Master vehicle maintenance, repair skills, and safety protocols
Explore integration of smart safety technologies and autonomous navigation
Sustainable Vehicle Technologies
Study battery chemistry, regenerative braking, and EV sustainability principles
Explore vehicle architecture and aerodynamic enhancements
Understand AI-driven obstacle detection and autonomous mobility
Learn safety procedures for high-speed and off-road vehicle operations
Motorsport Engineering
Discover safety standards, mechanics, and design principles of extreme motor sports
Analyze competitive vehicle dynamics and performance optimization
Use simulation tools including MATLAB, SolidWorks, and digital twins
Apply troubleshooting and diagnostic frameworks for performance tuning
Innovation & Real-World Application
Practice prototyping, manufacturing, and testing vehicle components
Collaborate on mobility technology projects and engineering challenges
Develop skills for future transport system innovations
Engage with ecological and sustainable trends in automotive design
🏎️ Formula Kid
Race your own custom-built electric go-kart
🏁 Formula 1 Pit Stop Simulator
Experience high-pressure teamwork and precision
🏍️ MotoGP Track Ride
Real and virtual immersive motorbike racing
🧲 EV Dissect
Take apart and rebuild an electric scooter’s motor assembly
📦 Garage Lab
Design futuristic garage spaces with digital 3D modeling
🎨 Custom Car Painting Challenge
Create unique vehicle finishes and designs
🛰️ Driverless Demo
Program and test self-driving prototypes in scaled cities
🛞 Build-A-Car Challenge
Design and race scale models with interchangeable parts
🏍️ Motocross Mayhem
Navigate challenging off-road obstacle courses
🏜️ Desert Rally
Drive ATVs across shifting sand dunes
Key Tools & Experiences
Key Tools & Experiences
Future-Ready Skills
The skills developed in our program prepare students for careers that don’t even exist yet, as robotics and automation continue to transform industries worldwide.
Combustion & Electric Engine Kits
Hands-on systems for understanding engine mechanics, power transmission, and EV propulsion.
EV Battery Assembly & Testing Stations
Workbenches for building, testing, and analyzing high-efficiency electric battery modules.
Mechanical Prototyping & Tool Workstations
Mini-labs for testing soil nutrients, crop health, and food molecular composition.
CAD & 3D Automotive Design Studios
Software environments for designing, modeling, and simulating custom vehicle structures
Vehicle Sensor & Navigation Integration Kits
Modules featuring GPS, LIDAR, and sensor arrays for smart mobility innovation.
Autonomous Driving & Racing Simulators
Virtual platforms for developing and testing self-driving algorithms and racing dynamics.
Diagnostic & Troubleshooting Systems
Professional-grade scanners for identifying, analyzing, and resolving automotive faults.
Automotive Aesthetics & Customization Labs
Creative booths for painting, lighting, and personalizing vehicle designs.
Motorsport & Off-Road Experience Tracks
Controlled environments for hands-on riding, testing, and performance tuning of ATVs and bikes.
Engineering Collaboration & Project Suites
Digital platforms for teamwork, documentation, and lifecycle management of automotive projects.
SDG Aligned Edutainiment
Sustainable Development Goals
Our Moto Morphosis Zone is aligned with the United Nations Sustainable Development Goals, preparing students to contribute to a better and more sustainable future through technology and innovation.
🎓 SDG 4 – Quality Education
Provides hands-on, interdisciplinary engineering education with real-world vehicle applications.
⚙️ SDG 9 – Industry, Innovation and Infrastructure
Fostering sustainable agri-tech development and rural economic growth.
♻️ SDG 11 – Sustainable Cities and Communities
Inspires innovations for cleaner, smarter urban and rural transport solutions.
Key Tools & Experiences
STREAMER Lifestyle integration
A hands-on approach blending Science, Technology, Research, Engineering, Arts, Mathematics, Energy and Resilience. This lifestyle fosters learning by doing, creative problem-solving and persistent growth as an absolute necessity for thriving in 2025’s innovative and fast-evolving world.
Future-Ready Skills
The skills developed in our program prepare students for careers that don’t even exist yet, as robotics and automation continue to transform industries worldwide.
Science
Study combustion dynamics, electric propulsion, and vehicle aerodynamics governing performance and efficiency.
Technology
Utilize diagnostic tools, CAD software, and autonomous driving systems integral to modern mobility.
Research
Analyze vehicle performance data, simulate driving conditions, and optimize engineering designs.
Engineering
Build, maintain, and upgrade mechanical, electrical, and digital vehicle systems.
Arts
Design automotive aesthetics, custom paintwork, lighting setups, and user interface elements.
Mathematics
Apply geometry, calculus, and physics in vehicle design and trajectory planning.
Energy
Understand battery chemistry, energy regeneration, and efficient power management for EVs.
Resilience
Develop perseverance and problem-solving skills navigating complex vehicle systems and high-speed scenarios.