Innovation Hub

The Innovation Hub features 50+ hands-on experiments designed to make science interactive, engaging, and easy to understand for school and college students. These models simplify complex concepts and encourage students to explore, question, and learn through real-world applications and activity-based learning.

IH - Air Track

It demonstrates the concept of friction reduction using an air cushion between a V-shaped track and gliders. It enables near-frictionless, one-dimensional motion, helping students explore principles like elastic collisions and interaction at a distance using magnetic repulsion — ideal for understanding real-world physics in action.

DIY - Robotics Kit

This plug-and-play kit introduces basic electronics and sensors. DIY set that lets kids build five different robots like Buddy Bot and Spiro Bot, enhancing creativity, logic, and engineering skills. Made from durable, child-safe materials, it’s easy to assemble with no coding or soldering required

Robotic & AI Kits

Our Robotics & AI Experiments section introduces students to the future of technology through interactive, beginner-friendly projects. From building autonomous robots to exploring machine learning basics, each activity is crafted to spark curiosity and develop essential 21st-century skills in programming, electronics, and artificial intelligence — all through hands-on learning.

IH - Lissajous Figures

It demonstrate the fascinating patterns formed by the superposition of two perpendicular simple harmonic motions (SHM). Depending on their frequency, amplitude, and phase, the resulting shapes can be lines, ellipses, or circles. It's an excellent tool for understanding oscillations, phase relationships, and resonance

IH - Air Track

It demonstrates the concept of friction reduction using an air cushion between a V-shaped track and gliders. It enables near-frictionless, one-dimensional motion, helping students explore principles like elastic collisions and interaction at a distance using magnetic repulsion — ideal for understanding real-world physics in action.

IH - Black Hole

Science Behind Curved Surface Dynamics When a two-dimensional surface deforms, it transforms into a curved structure. A stretched rubber membrane model, is crucial in astrophysics, helping explain planetary motion, black holes, and gravitational lensing observed in deep space. It also finds use in satellite trajectory planning and understanding spacetime distortions in GPS technology.