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29 images with this flag
A custom-built robotics project is displayed on a concrete floor, featuring a metal chassis with exposed wiring, motors, wheels, and electronic components. Large yellow storage bins are visible in the background, suggesting this photo was taken in a makerspace or workshop environment typical of The League of Amazing Programmers.
A product photo of a programmable robot car kit featuring a blue chassis with wheels, a black control board with LED displays, dual white sensors on the front, and batteries mounted on top. The robot is designed for educational purposes to teach coding and robotics principles.
A yellow handheld gaming device or electronic toy with a small screen displaying a retro-style video game with red blocks and blue background. The device features multiple black control buttons arranged around the lower portion and appears to be a nostalgic or educational electronics product suitable for a youth coding organization.
A bright blue handheld gaming device or portable game console displayed against a white background. The device features a small screen showing a pixel-art style game with red structures and character sprites, along with a D-pad and action buttons on the front. This appears to be a product shot representing gaming or interactive programming concepts relevant to youth coding education.
A robotics or hardware project built on a yellow baseplate featuring a motor, circuit board with wiring, battery pack, and blue structural components. This appears to be an educational STEM or robotics build typical of youth coding and engineering programs.
A blue and black robotic construction with mechanical arms and legs sits on a wooden floor. The robot features circuit boards, servo motors, colored wiring, and structural pieces made from engineering building materials. This appears to be a student-built robotics project typical of youth coding and engineering programs.
A screenshot of a retro-style pixel art video game displayed on a handheld gaming device interface. The game shows a character with a red balloon floating above mountainous terrain with flying enemies, reminiscent of classic 8-bit games. The device has a teal/turquoise color with a D-pad, action buttons labeled A and B, and a Menu button, styled like a Microsoft handheld gaming device.
This image shows a micro:bit LED display matrix with a simple pixel art design illuminated in pink/red. The glowing rectangular LED elements form a pattern on the black background, representing how the micro:bit's 5x5 LED grid can display custom graphics and patterns.
A product showcase displaying the ELECFREAKS Cutebot, a micro:bit smart robot with colorful design elements including wheels, sensors, and an LED display panel. The image shows the robot against a light blue pixelated background with the ELECFREAKS logo and includes text identifying it as a micro:bit smart cutebot educational robotics product.
A top-down view of a micro:bit robot car with blue and white striped body, showing the internal hardware including battery compartment, circuit board, wheels, and electronic components. The image includes a label pointing to the switch mechanism at the bottom.
A micro:bit robot car kit displayed against a white background, featuring a blue and gray chassis with two white sensor modules on the front, a circuit board control unit mounted on top, batteries on the side, and black wheels with silver rims. This is a complete educational robotics platform designed for youth programming and hardware projects.
A micro:bit microcontroller board is displayed against a white background, showing its distinctive black circuit board with a gold LED matrix grid in the center, pink accent triangles on the side, and gold connection pads along the bottom edge. This is a product shot of the popular educational hardware used in coding education.
A product photo showing a blue netbook/laptop with a micro:bit microcontroller circuit board and its accessories laid out below it on a wooden surface. The image displays the micro:bit board, a battery pack, a USB cable, and what appears to be instructional documentation, representing the complete hardware kit used for coding education.
A Dell laptop displays the MakeCode editor interface with a micro:bit project open, showing a blue robot illustration and programming blocks. Connected to the laptop via USB cable is a micro:bit device with its characteristic red LED grid display visible, along with a battery pack, demonstrating a complete coding setup for The League of Amazing Programmers.
A product card for the 'servo' micro-servo library, featuring a stylized illustration of a servo motor component on a coral red background with decorative technical elements. The card includes the title 'servo', subtitle 'A micro-servo library', and a 'Learn More' link.
A flat-lay product photograph showing various electronic components and hardware used in robotics or maker projects, including circuit boards, motors, servos, wiring harnesses, and control modules arranged neatly on a gray surface. This appears to be a kit or collection of parts for building motorized projects, typical of what The League of Amazing Programmers would use in their youth coding and robotics curriculum.
A flat-lay product photo of various electronic components and hardware used for robotics and motor control projects, arranged neatly on a gray background. The collection includes servo motors, a microcontroller board, circuit boards, jumper wires, connectors, and other electrical components. This appears to be a kit or collection of parts for The League's motors clinic curriculum.
A photograph of a Keyestudio circuit board module with a Cytronix 80P connector at the top. The black PCB board features various electronic components including resistors, capacitors, and connector pins arranged in rows (numbered 0-7 on the sides) with red and yellow terminal blocks. This appears to be a motor control or expansion board commonly used in educational robotics projects.
A close-up photograph of an electronic circuit board with green terminal blocks at the top, various resistors, capacitors, and integrated circuits on a blue PCB base, and connector pins at the bottom. This appears to be a motor control or driver module used in robotics projects.
A blue microservo motor (labeled SG90) photographed against a white background with colored wires (red, yellow, brown) attached. This is a common small servo motor used in robotics and electronics projects, typical of components used in youth coding and hardware education.
A flat-lay product photo of microcontroller hardware components arranged on a dark surface. The image shows a micro:bit board (top left), a battery pack with red and white wires (left), white USB cables, and a black USB cable connector (right). These are typical components used in educational coding and robotics projects.
A flat-lay photograph of electronic testing and measurement equipment displayed on a gray surface. The kit includes an oscilloscope with a yellow-green rugged case and digital display, various probe cables with connectors, a soldering iron with stand, and test leads with alligator clips. This appears to be a typical electronics troubleshooting or repair kit used for measuring electrical signals and testing circuits.
A small electric motor with a gray metal cylindrical housing and a white plastic mounting bracket or base. The motor has a protruding shaft and appears to be a basic DC motor commonly used in educational robotics and electronics projects.
A circuit board showing electronic components including a ULN2003AN motor driver IC chip, four resistors labeled R5-R8, a white connector block with positions A-B-C-D, and mounting holes. This appears to be a motor control circuit board commonly used in educational robotics projects.
A 3D rendered emoji character with a yellow-to-orange gradient sphere displaying a smiling face wearing black sunglasses. This is a stylized cool/confident emoji illustration commonly used in digital contexts.
Two programmable microbit robots are displayed against a gray background. On the left is a red and blue Cutebot with a round body design and control buttons, while on the right is a yellow and blue wheeled robot with a more complex chassis. Both feature circuit boards, wiring, and electronic components typical of STEM education kits.
A VEX Robotics or similar educational robotics kit assembled on a wooden floor. The robot features blue and black structural beams, a microcontroller board, servo motors, colorful wiring, and what appears to be mechanical arms or attachments. This is a hands-on STEM learning project typical of youth coding and robotics programs.
A collection of educational robot kits displayed on a dark surface, featuring multiple micro:bit-based robotics projects. The robots include wheeled vehicles with LED lights, circuit boards, and colorful 3D-printed components in blue, green, yellow, and orange. These appear to be student-built projects typical of youth coding education programs.
A colorful flat lay composition on a bright yellow background featuring various robots and electronics projects. The image shows a cute blue cartoon-style robot in the center, flanked by four different hardware builds including motorized robots with mechanical arms, circuit boards (including an Arduino UNO), sensors, and electronic components with wiring. This appears to be a styled product photo showcasing robotics and electronics education kits.