T-S39 Solar-Powered Wind-Powered Car DIY Learning Kit

Overview

The T-S39 Solar-Powered Wind-Powered Car DIY Learning Kit is a practical educational tool that introduces students and hobbyists to renewable energy and mechanical design. Learners build a compact vehicle that operates using solar energy or wind power, demonstrating how sustainable energy sources can be converted into motion without traditional fuels. The kit reinforces core concepts such as solar-to-electric conversion, basic electronics, and mechanical transmission.

Key Features

• Dual power system – operates using solar energy or wind power for flexible experiments.
• Clear demonstration of renewable energy conversion and mechanical motion.
• Designed for STEM education to promote interest in clean energy and sustainable technology.
• Easy to assemble with no soldering required, making it suitable for beginners and classroom settings.
• Compact components include a small solar panel, motor, propeller, chassis, and wheels.
• Encourages critical thinking, creativity, and scientific exploration through hands-on learning.

Applications

• STEM and science learning projects
• Renewable energy and sustainability education
• Classroom demonstrations and science fair exhibits
• DIY hobbyist projects and experimental learning
• Practical lessons on solar and wind energy mechanisms

Specifications

• Model: T-S39
• Type: DIY Renewable Energy Educational Kit
• Power Source: Solar power and wind power
• Material: Plastic and electronic components
• Assembly Required: Yes (simple assembly, no soldering)
• Learning Focus: Renewable energy, solar-to-electric conversion, mechanical motion

What is Included

• Chassis and wheel set
• Small solar panel
• Electric motor
• Propeller and hub
• Gears, axles, and fasteners
• Instruction sheet for assembly and experiments

Assembly and How to Use

1. Follow the instruction sheet to assemble the chassis, mount the motor, and attach wheels.
2. Connect the solar panel to the motor for sunlight-powered runs.
3. Replace the solar panel connection with the propeller setup to test wind-powered operation.
4. Experiment with light intensity, propeller angle, and gear configurations to observe performance changes.

Educational Benefits and Learning Outcomes

• Understand how solar panels convert light into electrical energy and how motors convert electrical energy into motion.
• Explore wind energy principles through propeller-driven propulsion.
• Develop problem-solving, engineering design, and critical thinking skills.
• Gain hands-on experience with basic electronics and mechanical components.

Safety and Classroom Tips

• Suitable for supervised classroom use and hobby projects. Adult supervision recommended for younger students.
• Handle electronic components gently to avoid damage. Keep small parts away from young children.
• Use in well-lit areas for optimal solar performance, or test wind operation with a household fan.

Why Choose the T-S39 Kit

The T-S39 kit is an accessible, low-cost way to introduce renewable energy concepts and hands-on engineering to learners of all ages. Its dual power capability allows multiple experiments and comparisons, making it an excellent teaching aid for educators and a fun project for hobbyists interested in sustainable technology.

Note: Images are for illustration purposes only.