Before starting this course, learners should have basic knowledge of the following concepts (preferably covered in earlier classes):
Basic Science Concepts
Force and motion
Simple machines (lever, pulley, wheel & axle)
Energy and power
Basic Mathematics
Number operations
Ratios and proportions
Basic geometry (line, angle, circle, coordinates)
Basic Computer Awareness
What is a computer and how it works
Basic input and output devices
Understanding of simple block diagrams
Basic Electronics (Introductory Level)
Simple circuits
Battery, switch, wire, LED, resistor
Understanding of current flow (basic idea only)
This course provides a comprehensive introduction to Robotics as an interdisciplinary system combining mechanical, electronic, and computational components. Learners will explore the fundamentals of robots, their evolution, classification, and real-world applications across multiple domains such as industry, healthcare, defense, agriculture, and smart environments.
The course develops an understanding of robot motion, joints, links, and degrees of freedom, helping learners visualize how robots move and function. Students will learn how a robot works as a complete system by studying sensors, actuators, controllers, and gears, and how these components interact through feedback and control systems.
Modern robotic developments such as New Age Robotic Systems (NARS), autonomous systems, smart environments, and cobots (collaborative robots) are introduced to build awareness of future technologies and human-robot collaboration.
By the end of this course, learners will be able to:
1. Understand Fundamentals of Robotics
2. Classify and Identify Robots
3. Understand Robot as a System
4. Analyze Motion and Mechanical Structure
5. Understand Modern Robotic Systems
6. Understand Core Components of Robotics
7. Integrate Robotic Components
8. Build Simple Robotic Systems
Basics of Robot And Robotics
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