Course
Understand the fundamentals of robotics and automationBuild and program functional robots using real kitsApply STEM concepts in hands-on projectsDevelop logical and computational thinkingLearn the basics of sensors, motors, and controllersGain experience in robot programming and controlEnhance creativity and innovation through robotics designStrengthen problem-solving and analytical skillsImprove teamwork and collaboration through group projectsPrepare for robotics competitions and science fairsUnderstand real-world applications of robotics and AIBuild confidence in presenting and demonstrating projects
Course Description
This dynamic course introduces students to the world of robotics, covering engineering principles, coding, automation, sensors, AI, and real-world applications. By the end, students will have built their own robots and mastered key skills for the future!
Modules
- Introduction to Robotics & Engineering Concepts
- Block-Based Programming & Logical Thinking
- Working with Sensors & Automated Robots
- Advanced Motion & Control Mechanisms
- Engineering Design & AI in Robotics
- Final Project, Presentation & Certification
Projects
- Research & write about a famous real-world robot and its function
- Identify 5 real-world robotic applications & explain their importance
- Design a flowchart showing how a robot follows an obstacle path
- Build a simple Scratch-based robot simulation that avoids obstacles
- Draw a concept sketch of a self-driving car with sensors
- Write a program that makes a robot stop when it detects an obstacle
- Write a short futuristic story about an AI-powered robot's role in society
- Design a plan for building a robot that performs a specific task
- Create a step-by-step blueprint of your own robot invention
- Research & present on a real-world AI-powered robot (e.g., Tesla Bot, Sophia, Boston Dynamics)
- Build an AI-powered robot that performs a real-world task (Obstacle Avoidance, Object Detection, Line Following, etc.)
- Present your project, explaining the coding, engineering, and design principles behind it
Assignments
- Research & write about a famous real-world robot and its function
- Identify 5 real-world robotic applications & explain their importance
- Design a flowchart showing how a robot follows an obstacle path
- Build a simple Scratch-based robot simulation that avoids obstacles
- Draw a concept sketch of a self-driving car with sensors
- Write a program that makes a robot stop when it detects an obstacle
- Write a short futuristic story about an AI-powered robot's role in society
- Design a plan for building a robot that performs a specific task
- Create a step-by-step blueprint of your own robot invention
- Research & present on a real-world AI-powered robot (e.g., Tesla Bot, Sophia, Boston Dynamics)
- Build an AI-powered robot that performs a real-world task (Obstacle Avoidance, Object Detection, Line Following, etc.)
- Present your project, explaining the coding, engineering, and design principles behind it
Certificate
Practical AI-integrated Project (40%)
Final Online Test (60%)
NxT Certified Juniors Robotics Course (7-10 Grade) Certificate
awarded upon successful completion.
Career Opportunities
- Job Roles:
- Robotics Engineer
- AI & Machine Learning Specialist
- Automation Engineer
- IoT & Smart Systems Engineer
- Freelancing Opportunities:
- Freelance Robotics Projects for Schools & Small Businesses
- Creating Online Robotics Tutorials & Courses
- Building Prototypes for Educational & Industrial Use
- Startup Opportunities:
- Developing AI-based robotic assistants
- Creating smart home automation solutions using robotics
- Designing IoT-integrated robotics solutions for industries & healthcare
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