Ignite early interest in STEM. Through story-driven missions, young minds learn the basics of motorized building and logic using simple drag-and-drop block coding.
Step into the world of real engineering. Students tackle complex mechanical structures and transition from block-coding to professional Python programming.
An intensive, fun-filled weekly adventure. Mixing physics, math, science experiments, and daily robotics challenges into the ultimate summer reward.
Beginner-Friendly Coding
• Introduces block-based coding (Scratch-style), allowing children to learn through simple drag-and-drop commands.
Engaging Storylines
• Each project is based on a fun, story-driven scenario.
• Role-playing and mission-based tasks make learning more immersive and enjoyable.
STEM Integration
• Covers science, technology, engineering, and math (STEM), fostering interdisciplinary thinking from an early age.
• Uses motors, wheels and sensors to help students understand mechanical principles and control systems.
Hands-on Learning
• Combines building and coding to help children learn through practice rather than just theory.
• Each lesson revolves around a real-world challenge, encouraging kids to explore and experiment.
Advanced STEM Learning
• Students explore mechanical structures, power transmission, and data processing, fostering comprehensive STEM skills.
Text-Based Coding
• Advanced learners can transition to Python programming, gaining experience in a real coding environment.
Project-Based Learning (PBL)
• Lessons are built around real-world engineering challenges, requiring students to design, build, test, and optimize their solutions.
• Develops critical thinking, analytical skills, and creativity by solving hands-on problems.
Hands-on Engineering Design
• Involves motors, color sensors, distance sensors, and other hardware, helping students integrate these into functional robotic systems.
• Encourages understanding of mechanical principles, automation, and robotics systems through practical experience.
Teamwork & Collaboration
• Students work in groups to discuss, program, test, and refine their robots.
• Enhances communication skills and collaborative problem-solving, preparing students for teamwork in real-world settings.
Competition Preparation
• The curriculum aligns with FIRST LEGO League (FLL) Challenge competition requirements.
• Students gain hands-on experience in robot building, mission programming, and strategic problem-solving to prepare for competitions.
Early Drop-off & Late Pick-up for Your Convenience
Fun Science Experiments
LEGO Building & Coding
Project Showcase
Collaboration & Teamwork
End-of Week Pizza Party
Enjoy All Activities for Just 349 CAD Per Week—an Unbeatable Value!
| Week | Date | Theme | STEM SMART Focus |
|---|---|---|---|
| 1 | 7.6–7.10 | Engineering Bootcamp | Robotics Fundamentals |
| 2 | 7.13–7.17 | Build & Present | Exploration Level - Archaeology-Based Projects |
| 3 | 7.20–7.24 | Engineering Bootcamp | Robotics Fundamentals |
| 4 | 7.27–7.31 | Build & Present | Navigation Level - Archaeology-Based Projects |
| 5 | 8.3–8.7 | Engineering Bootcamp | Robotics Fundamentals |
| 6 | 8.10–8.14 | Build & Present | Problem-solving Level - Archaeology-Based Projects |
| 7 | 8.17–8.21 | Engineering Bootcamp | Robotics Fundamentals |
| 8 | 8.24–8.28 | Build & Present | Challenge & Innovation Level - Archaeology-Based Projects |
