Build a robot capable of autonomously navigating a maze. Use sensors (like IR or ultrasonic) to detect walls and program the robot to find the shortest path to the exit.
Construct a car-like robot controlled by hand gestures using sensors like accelerometers or flex sensors. Program the robot to move forward, backward, turn, and stop based on gesture commands.
Organize a robotics challenge where participants build robots to compete in a series of tasks, such as line following, obstacle avoidance, and object manipulation.
Construct a car-like robot controlled by hand gestures using sensors like accelerometers or flex sensors. Program the robot to move forward, backward, turn, and stop based on gesture commands.
Build a robot capable of autonomously navigating a maze. Use sensors (like IR or ultrasonic) to detect walls and program the robot to find the shortest path to the exit.
Construct a car-like robot controlled by hand gestures using sensors like accelerometers or flex sensors. Program the robot to move forward, backward, turn, and stop based on gesture commands.
Design a digital thermometer using a temperature sensor (such as DS18B20) interfaced with a microcontroller (Arduino or Raspberry Pi). Display temperature readings on an LCD screen in both Celsius and Fahrenheit.
Develop an IoT-based home automation system using Arduino or Raspberry Pi. Control and monitor home appliances remotely through a web or mobile application using relays and sensors.
Construct an LED matrix display and integrate it with a voice recognition module (like EasyVR Shield). Program it to display pre-defined patterns or messages based on voice commands.
Build a robotic arm controlled by hand gestures using Arduino and servo motors. Implement sensors (like accelerometer/gyroscope) to detect hand movements for controlling the arm's motion.
Create a parking assistance system using ultrasonic sensors and an Arduino board. Detect the distance between a vehicle and obstacles and display the information on an LCD to assist in parking.
Build a heart rate monitor using a pulse sensor and Arduino. Display the real-time heart rate on an LCD screen and implement alerts for abnormal readings.
Experiment with wireless power transfer using inductive coils and resonance. Design a system capable of transferring power wirelessly from a transmitter to a receiver (Qi charging principle).
Create a system that detects sound levels using a microphone and triggers a set of LED lights or bulbs. Customize the sensitivity of the system based on sound input.
Construct a portable solar-powered mobile charging station using solar panels, charge controllers, and power banks. Design a system that efficiently charges mobile devices using solar energy.
Build a remote-controlled glider equipped with a camera and FPV system. Experience flying from the glider's perspective through video transmission to goggles or a screen.
Create a radio-controlled aircraft using foam board material. Design and customize the aircraft's shape and features for stability and aerobatic maneuvers.
Construct a quadcopter capable of carrying and dropping payloads accurately at designated targets. Design a mechanism to release payloads at specified locations.
Create scaled-down models of aircraft wings and structures to test aerodynamic properties in a wind tunnel. Analyze lift, drag, and stability characteristics.
Craft a compelling pitch deck highlighting a business idea, market potential, and investment opportunities. Practice presenting to simulated investors.
Run a simulated workshop based on the principles of the Lean Startup methodology, emphasizing iterative development, customer feedback, and pivoting strategies.
Develop an AR application that enhances educational experiences. Create interactive 3D models to visualize complex concepts like human anatomy or scientific phenomena.
