In the current era of unprecedented technological advancement, the demand for engineering specialists is on a rapid ascent. This comprehensive course is meticulously crafted for educators across all disciplines, providing them with the knowledge and expertise to not only grasp but proficiently impart the intricacies of rapidly evolving fields such as Coding and Robotics. These disciplines, recognized as integral components of our future, play a pivotal role in shaping the trajectory of human existence. By enrolling in this course, educators will not only stay abreast of the latest technological trends but will also acquire the skills to adeptly guide the next generation towards a future where innovation and problem-solving are paramount. Join us in this transformative educational journey and become a catalyst for change in the ever-evolving landscape of education.
Understand the principles of computational logic.
Acquire the necessary knowledge to assist students in the development of their programming skills.
Effectively utilize a variety of digital resources to enhance the appeal of activities for students.
Heighten student engagement and motivation.
Implement the use of student devices both inside and outside the classroom.
Foster the development of collaborative activities.
Improve performance and efficiency in lesson preparation.
Harness available classroom resources that are both free and user-friendly.
Become more effective educators by mastering the resolution of computational logic problems posed by students.
The course employs a "learning by doing" methodology through guided tutorials. Following a concise explanation of key concepts and introduction to essential tools, the teacher initiates a project wherein students are tasked with creating educational resources for the class.
During this phase, the teacher assumes a supportive role, guiding students through their learning journey. Towards the conclusion of the course, a comprehensive test is administered to evaluate the achieved learning outcomes and acquired knowledge. This holistic approach ensures that participants not only grasp theoretical concepts but also gain practical skills through hands-on application and project-based learning.
Gain insight into the history and development of robotics.
Acquire familiarity with a programming language.
Enhance their computational logic skills.
Understand the basic structure and elements of a robot.
Learn to create diverse programs for a robot.
Develop the ability to communicate effectively with a robot.
100% funded by the Erasmus+
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