Robotics & AI – Grade 5
Hands-on Discovery of Robotics & Artificial Intelligence for Curious Minds
Level: Preparatory Stage
- 5K+ Registered Students
- 50+ Hands-on Projects
- 30+ Live Sessions
Program Overview
NEP 2020 Aligned STEM Curriculum
Comprehensive, grade-wise lesson plans, projects, and resources aligned with national education frameworks to foster experiential learning.
Hands-On & Project-Based Learning
Practical lab activities, real-world simulations, and engaging projects designed to build problem-solving and innovation skills.
Expert-Led & Adaptive Learning
Live, interactive sessions led by experienced STEM trainers, supported by adaptive pathways and techno-books for guided, personalized learning.
21st Century Skills Development
Focus on creativity, logical reasoning, critical thinking, teamwork, and communication, preparing students for future academic and professional success.
Experiential & Hands-On Learning
Students learn by building and experimenting with models, making abstract ideas concrete and memorable.
Visual & Interactive Teaching Aids
Videos, simulations, and interactive experiments simplify complex concepts and enhance retention.
Project-Based Learning (PBL)
Each module culminates in projects that encourage creativity, design thinking, and problem-solving.
Storytelling & Contextualization
Robotics and AI are introduced through relatable stories and everyday examples, helping children connect technology with real life.
Personalized & Adaptive Guidance
Small group and 1:1 learning ensures that every child progresses at their own pace with focused attention.
Playful Exploration & Collaboration
Games, puzzles, and group activities create a joyful learning environment while fostering teamwork and innovation.
Our Methodology
- 30+ interactive live sessions (45–60 minutes each, teacher-led and highly engaging)
- 50+ hands-on activities & virtual simulations with real-world application
- 20+ storytelling & design-based projects that connect concepts to practice
- STEM Lab setup & techno-books with QR-based interactive content and resources
- Activity-based & project-based assessments to track progress and improvement
- Exploration of AI & robotics in everyday life through simple, age-appropriate applications
- Progressive learning pathways covering mechanical builds, sensor integration & AI-powered simulations
- National-level SparkX Innovation Challenge to showcase creativity, teamwork, and problem-solving
Goals that we achieve through the program
STEM Foundation
- Build a Strong STEM Base
- 50+ Hands-on Activities
- Learn basics of machines, motion, and simple circuits
- Develop Early Engineering Thinking
Creativity & Collaboration
- Spark Creativity & Imagination
- Design and Build “Dream Robots”
- 30+ Team Projects and Wonder Challenges
- Enhance Communication & Teamwork
AI Awareness & Growth Mindset
- Gain Early Awareness of AI in Daily Life
- 10+ Design Thinking Activities
- Develop Problem-Solving and Logical Thinking
- Build Confidence through Making & Experimenting
Our Curriculum
| Session | Chapter Name | Project | Concepts Covered |
|---|---|---|---|
| 1 | Welcome to the World of Robotics | Dream Robot Drawing | History of robotics, real-world uses, future visioning |
| 2 | Race Ready: Engineering a Race Car | Build a Racing Car | Motor coordination, steering, aerodynamics |
| 3 | Magic Moves | Hand-Following Robot Car | IR sensor logic, motion detection, directional response |
| 4 | Spin, See, Sprint! | Spinning Remote-Controlled Car | Proximity sensing, object detection, logic-based control |
| 5 | Wave & Cool | Smart Table Fan | Distance sensing, automation, conditional motor triggers |
| 6 | The Edge Dodger | Edge-Avoiding Robot | Edge detection logic, fall-prevention, debugging |
| 7–8 | Build Your Own Wonder – I | Robot With a Purpose | Design-thinking, user-centered design, rapid prototyping |
| 9–10 | Build Your Own Wonder – II | Obstacle Avoiding Robot | Logic building, obstacle navigation, performance improvement |
| Session | Chapter Name | Project | Concepts Covered |
|---|---|---|---|
| 1 | Built It Bright: Breadboard Basics | Create a Working LED Circuit | Breadboard use, circuit building, digital simulation (Tinkercad) |
| 2 | Resistor Rangers: LED Challenge | Create a Dual-LED Circuit | Resistors, safe current flow, troubleshooting circuits |
| 3 | Glow Go! The LED Switch Adventure | Create a Push-Button LED Circuit | Push-button control, circuit logic, real-world applications |
| 4 | Skyrider Rope Car Adventure | Create a Rope Car | Motors, pulleys, mechanical movement, real-life cable cars |
| 5 | RoboRacer: Design Your RC Car | Create a Functional RC Car | Remote control, motor connections, assembly, app control |
| 6 | Bump & Go: Obstacle Avoider Robot | Create an Obstacle Avoider Robot | Touch sensors, obstacle detection, robot assembly |
| 7–8 | Build Your Own Wonder – I | Design a Robot That Moves and Turns Automatically | Design thinking, programming logic, teamwork |
| 9–10 | Build Your Own Wonder – II | Design a Smart Robot Moving in a Triangle Path | Autonomous movement, problem-solving, creativity |
Testimonials
“The transition from basics to advanced concepts was seamless. Everything was well-structured and easy to follow. A very rewarding learning experience overall.”
Nikhil Joshi
“I finally understood how AI connects with real-world applications. The practical projects made concepts much clearer. It was both engaging and insightful.”
Isha Ranjan
“Every concept was reinforced through implementation. This ensured real understanding, not just memorization. The approach was very effective.”
Rohan Kulkarni
“The program strikes the perfect balance between theory and execution. Building projects helped me grasp concepts much faster. It significantly improved my practical understanding.”
Sarthak Jain
Frequently Asked questions
The FAQ section provides quick answers to common questions, helping users find information easily and save time.
Do you have questions?
1. What is the focus of activities in these grades?
Students explore motion, sensors, and circuits through structured hands-on projects.
2. How do activities connect to real life?
Yes, a step-by-step troubleshooting guide is included in the Teacher Handbook and accessible online.
3. Do students work individually or in teams?
Mostly in teams to encourage collaboration and group problem-solving.
4. Are reflection or discussion parts included?
Yes, every session ends with a short reflection where students discuss what they learned and built.
Do you have questions?
1. What should we do if a sensor or wire isn’t working?
You can log a support ticket through the online portal with photos or short details of the issue.
2. Can teachers or coordinators troubleshoot on their own?
Yes, a step-by-step troubleshooting guide is included in the Teacher Handbook and accessible online.
3. Are replacement components provided free of cost?
Yes, replacements for genuine classroom issues are covered under the annual support plan.
4. Is live technical help available for teachers?
Yes, our support team offers virtual assistance sessions for teachers facing repeated technical issues.
Do you have questions?
1. How are teachers supported in delivering STEM concepts?
Each topic includes guided lesson plans, activity videos, and background explanations for teachers.
2. Can teachers adapt the lessons based on student pace?
Yes, teachers can simplify or extend activities using the optional “Challenge & Explore” extensions.
3. How can teachers assess teamwork and creativity?
Assessment rubrics include parameters for collaboration, creativity, and understanding of concepts.
4. Are teacher resources available online?
Yes, all materials—lesson plans, slides, and worksheets—are available in the Teacher Dashboard.