Overview
The T-M17 Taxiing Aircraft DIY Learning Kit is a hands-on STEM project that introduces students to the fundamentals of aerodynamics, propulsion, and mechanics. This unassembled model uses a battery-operated DC motor to demonstrate realistic taxiing motion on the ground. Designed for classroom use, science fairs, and after-school programs, the kit turns abstract physics concepts into tangible learning experiences.
Key Features and Benefits
- Realistic taxiing model: Demonstrates ground movement and propulsion using a DC motor and propeller.
- STEM-focused learning: Reinforces aerodynamics, thrust, friction, balance, and energy conversion through hands-on build and testing.
- Complete DIY assembly: Includes all parts, tools, and step-by-step instructions to promote independent problem-solving and technical skills.
- Beginner friendly: Simple assembly and clear guides make it suitable for students new to model building and engineering projects.
- Durable materials: High-quality plastic and lightweight metal components for repeated classroom use.
What the Package Includes
- Aircraft body and wing components
- DC motor and propeller
- Wheels and axle assembly
- Wiring and connectors
- Switch and battery holder
- Mounting hardware and screws
- Step-by-step instruction manual
Specifications
- Power Source: Battery-operated DC motor
- Assembly Type: DIY unassembled kit
- Material: High-quality plastic and lightweight metal parts
- Age Group: 10 years and above
- Skill Level: Beginner
- Learning Focus: Aerodynamics, propulsion, motion, and energy conversion
- Approx. Dimensions (assembled): 18 cm × 15 cm × 8 cm (may vary slightly)
Learning Outcomes and Classroom Applications
- Understand how thrust and friction affect ground movement and acceleration.
- Explore balance, center of gravity, and how design impacts stability.
- Apply basic electrical concepts by wiring the DC motor and switch.
- Develop problem-solving, collaboration, and project planning skills during assembly.
- Use as a demonstration model for science fairs, engineering projects, and aviation-themed lessons.
Assembly Tips and Teacher Notes
- Set up workstations with clear instructions and all parts pre-sorted to help students focus on learning engineering concepts.
- Encourage students to test different propeller sizes or wheel surfaces to observe effects on taxiing performance.
- Use the kit as a starting point for extending lessons into aerodynamics experiments, drag reduction, and power-to-weight discussions.
Safety and Recommendations
- Recommended age: 10 years and above. Adult supervision advised during assembly and battery handling.
- Follow instruction manual for safe wiring and motor mounting to avoid short circuits or loose connections.
- Keep small parts away from young children and store components safely after use.
Why Choose the T-M17 for STEM Education
The T-M17 Taxiing Aircraft DIY Learning Kit converts classroom concepts into hands-on experiments that stick. With a focus on aerodynamics, propulsion, and motion, the kit supports interactive learning, sparks curiosity in aviation, and builds practical engineering skills. Its beginner-friendly design and complete hardware set make it an excellent resource for teachers and parents looking to enrich STEM curricula.
Note: Images are for illustration purposes only.
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