All Courses

Data structure programming focuses on organizing and managing data efficiently using structures like arrays, lists, stacks, queues, and graphs. It helps optimize algorithms for tasks like searching, sorting, and mapping, forming the foundation for solving complex problems in computer science and software development.

This course, "Internet of Things (IoT) using Arduino Nano RP2040 & ESP32 on Arduino Cloud," is designed to introduce you to the world of IoT by leveraging popular microcontrollers and the Arduino Cloud platform. You'll learn how to set up, connect, and program Arduino Nano RP2040 and ESP32 to create smart devices that communicate over the internet. The course will guide you through cloud connectivity, data acquisition, and remote monitoring and control using the Arduino Cloud. You'll also work with a variety of sensors and actuators to build real-world IoT projects such as smart home automation, weather monitoring systems, and more. By the end of the course, you'll have hands-on experience with building, deploying, and managing IoT solutions, providing you with the knowledge and skills needed for IoT projects and applications.

Intermediate Programming Courses

Design programming and algorithms focus on creating efficient solutions to problems. It involves structuring code and selecting the best algorithms to achieve optimal performance. Algorithms are step-by-step procedures used to process data, solve problems, or perform computations, while good design ensures clarity, efficiency, and scalability in the program's structure. Together, they form the foundation for building reliable, efficient software solutions.

This course introduces learners to the fundamentals of building an autonomous line follower robot while leveraging data structures to create and navigate a robot map. Starting with the basics of robotics and sensors, the course progresses to integrating algorithms for mapping and navigation using graphs, arrays, and queues. Participants will learn how to program the robot to detect paths, intersections, and obstacles, enabling it to make intelligent decisions in real-time.
The course combines hands-on robotics with foundational programming concepts, making it ideal for students and enthusiasts interested in robotics, embedded systems, and algorithm design. By the end of the course, learners will have a fully functional line-following robot capable of autonomous navigation in dynamic environments.

هذه المشاريع للأطفال تعرفهم على الروبوتات المتقدمة وأنظمة التحكم: 

• المحركات التي يتم التحكم فيها بالصوت: يستخدم الأطفال الأوامر الصوتية للتحكم في المحركات أو مصابيح LED .
• روبوت يتم التحكم فيه بواسطة بلوتوث: يتحكم تطبيق الموبايل في روبوت ب 4 عجلات عبر البلوتوث ، لتعليم الاتصال اللاسلكي.
• رافع وقابض للروبوت: يضيف الأطفال رافعا وقابضا إلى الروبوت ، و يتعلمون كيفية التحكم في المحركات.

Arduino programming involves using an Arduino board, which is a small electronic device, to create interactive projects. With Arduino, students learn how to write and upload code that controls various electronic components such as lights, sensors, motors, and more. This enables them to create programs that respond to input from sensors, display information on screens, or control the movement of motors.

Students will learn C++ programming to interface sensors, motors, and controllers to create a UGV that can navigate its environment. They will also program a robot arm to perform tasks like picking and placing objects.  

  Students will learn how to create and manipulate 3D shapes, design mechanical parts, and assemble them into complex models. Through hands-on projects, they will explore concepts like dimensions, tolerances, and design aesthetics. This course encourages creativity and critical thinking while providing a solid foundation in engineering principles, making mechanical design engaging and accessible for young learners.

 A mechanical design course using Tinkercad for kids introduces them to 3D modeling and design, allowing them to create mechanical parts like gears and simple machines. Kids learn how to design in a virtual environment, and then use a 3D printer or laser cutting machine to manufacture their designs in real life and assembling the parts together.