An open-source, 2-Wheel Drive (2WD) robotic soccer car kit engineered specifically for STEM classrooms, makerspaces, and competitive robot soccer leagues. Built with a robust, custom-molded blue frame featuring a specialized curved front bumper shield, this mobile robot is designed to securely capture, dribble, and shoot miniature soccer balls. Controlled via Bluetooth with a smartphone or tablet, it provides an action-packed, gamified approach to learning robotics coding and electronic circuit design.

Component List:-

1. 1 × Heavy-Duty Molded Main Chassis Base Plate (with integrated vertical motor retention slots)
2. 1 × Curved Front Soccer Ball-Striker Bumper Shield Cover
3. 2 × High-Torque Dual-Shaft BO Geared DC Motors (Yellow Case)
4. 2 × High-Traction Rubber Tread Tires with Yellow 5-Spoke Plastic Wheel Rims
5. 1 × Core Microcontroller & Motor Driver All-in-One Shield Board
6. 1 × HC-05 / HC-06 Bluetooth Transceiver Module (with vertical pin connector orientation)
7. 2 × Pre-twisted Red and Black Flexible Power Hook-up Leads
8. 1 Set × Flush-Mount Mechanical Machine Assembly Screws

Features:-

1. Specialized Soccer Bumper: Deep curved front panel designed to grip, manipulate, and smoothly herd standard mini ping-pong or toy soccer balls.
2. Agile Dual-Motor Differential Drive: Powered by two vertical high-torque BO motors for ultra-responsive, zero-radius turning, spinning, and fast acceleration on the field.
3. Wireless Bluetooth Steering: Integrated Bluetooth communication module enables real-time, low-latency control via free Android/iOS smartphone controller apps.
4. Impact-Resistant Enclosed Housing: A durable blue modular chassis shell that completely encloses and shields delicate microcontrollers, battery modules, and wiring from physical bumps during intense match play.
5. High-Grip Track Tires: Fitted with thick rubber tread tires over bright yellow star rims to guarantee excellent traction and rapid braking response on table-top courts or smooth floors.
6. Beginner-Friendly Programming: Fully compatible with Arduino IDE, Scratch block programming, and Python, allowing students to easily program custom speed modes or autonomous routines.

Applications:-

1. Classroom STEM sports tournaments and inter-school robotic soccer league matches.
2. Hands-on programming courses focused on wireless serial communications (UART) and motor driver math.
3. Interactive workshops centered on custom mobile application development and smartphone hardware interfacing.
4. Introductions to basic mechanical vehicle physics, gear ratios, and center-of-gravity balancing.
5. Extracurricular electronics clubs, high school science projects, and technical laboratory exhibitions.