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Robotics competitions act as a doorway to ignite the creativity of students from diverse backgrounds and to kindle their enthusiasm and interest in IT. In these competitions, youngsters have the opportunity to enhance their technical expertise, foster creativity, and refine problem-solving skills as they gather for educational purposes.

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In today's tech-driven education, participation in robotics competitions is deemed essential for courses related to information technology. The dynamic environment of robotics competitions, blending competition, and the drive to succeed, guarantees the practical application of acquired knowledge in real-world scenarios. This reinforcement by students ensures a lasting and meaningful learning experience.

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What is a Robotics Competition?

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Robotics competitions are events where the abilities and features of robots are tested and evaluated under various conditions, and the robot with the highest score wins. In these competitions, it is expected that participants design, build, and program robots to compete against each other. Robotics competitions can occur with tangible robots or in a simulated environment. Contests conducted in a simulation environment eliminate the necessity for physical hardware, space, or resources, simplifying robot design, programming, testing, and optimization.

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Every year, numerous robotics competitions are arranged globally. Some occur in in-person events where participants gather, while others are conducted through virtual coding platforms. Robotics competitions on virtual coding platforms enhance the accessibility of these events by removing limitations related to time and space. In our blog post, you can read about the most significant robotics competitions held in Turkey and worldwide in 2023. Stay tuned for the upcoming 2024 robotics competitions, soon to be featured on our blog page!

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What is the Impact of Robotics Competitions on Information Technology Courses?

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Information technologies and robotics coding are two important fields that are closely linked. Training in robotics coding equips students with essential skills like a solid programming foundation, software development, and effective problem-solving, which are crucial for the information technologies curriculum. Robotics competitions not only kindle curiosity in young minds but also guarantee that education in robotics coding becomes a hands-on and enduring experience. Some of the contributions of robotics competitions to information technology courses include:

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• Practical Learning: Robotics competitions allow students to apply the theoretical knowledge they learn in the information technology curriculum to real-world applications.
• Competition Structure: Robotics competitions comprise segments strategically crafted to engage participants across various facets of robotics and information technologies. These challenges are crafted to simulate real-world issues, requiring students to devise inventive solutions. Teams enhance their robotic and programming skills to surmount these specific challenges.
• Learning Experience: Robotics competitions go beyond mere victory. These events provide optimal environments for learning, experimentation, critical thinking, and the cultivation of coding and design skills. Children involved in robotics competitions acquire hands-on problem-solving experiences, applying STEM learning in a practical and engaging context.
• Software Skills: Through robotics competitions, participants acquire fundamental programming skills. By refining these digital skills, students can readily adapt to the demands of future cyber systems.
• Teamwork and Collaboration: Robotics coding competitions aid in the cultivation of teamwork skills among students. The collaboration of students with diverse abilities promotes knowledge exchange and nurtures leadership and cooperation skills. Teamwork is a valuable asset in the field of information technologies.
• Networking and Collaboration: Robotics competitions also offer fantastic networking opportunities. Participants can connect with peers, mentors, and industry professionals with similar interests. This interaction can pave the way for future internships, mentorships, and job opportunities.
• Incentive Awards: The rewards presented in robotics competitions are crafted to boost students' enthusiasm for technology and robotics. These prizes serve as incentives, encouraging students to engage in the competition and maintain high motivation levels.
• Grasping Industry Requirements and Trends: Youth involved in robotics competitions gain exposure to the latest trends and technologies, enabling them to generate sought-after solutions for industry needs. This comprehension can align their educational decisions and career trajectories with the industry's requirements.

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Which STEM Subjects Do Robotics Competitions Teach?

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Robotics competitions provide an interactive and instructive experience, introducing students to science, technology, engineering, and math (STEM) concepts through practical learning. The STEM subjects covered in robotics competitions include:

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• Social Skills: Robotics competitions impart various interpersonal skills to students, including critical thinking, leadership, effective communication, a strong work ethic, attention to detail, project management, teamwork, and collaboration.
• Problem-Solving: Competitions pose unique challenges for teams to conquer, fostering critical and creative thinking among participants to devise solutions.
• Programming: Designing and operating a robot requires coding skills. Participants in robotics competitions learn programming languages such as Python, Blockly, Java, or C++ during the competition and acquire the know-how to apply these skills for their robots to perform specific tasks.
• Engineering and Design: Within robotics competitions, students grasp the process of designing a robot, starting from conceptualization and progressing through implementation. This process involves comprehending engineering principles.
• Mathematics: Acquiring knowledge of geometry for robot design and movement and understanding calculus principles for programming the robot's actions enhances mathematical skills.
• Scientific Principles: Participants acquire knowledge of physics concepts, including motion, force, and energy, as well as various scientific principles, to comprehend how the robot interacts with its environment.
• Technology Literacy: Participants gain exposure to diverse technologies, including robotic hardware and software, sensors, and control systems, throughout robotics competitions.

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Riders Robotics League Global Finals - The World Cup

Experience the thrill of the World Cup in Turkey's inaugural online robotics league, the Riders Robotics League, which will take place from December 7 to 18 this year. Follow our Instagram account to witness the World Cup excitement, where teams that have excelled in Turkey, Europe, and the US Riders Robotics Leagues showcase their robotic coding skills on the global stage!