Science concepts, coding tools, and math from our lessons — explained with visuals, interactives, and code.
Why the sky is blue, sunsets glow orange, and rainbows have seven bands.
How vibrations become music, speech, and the roar of a river.
Newton's laws, gravity, friction, and why woodpeckers don't get headaches.
Why mountains are cold, air thins with height, and the atmosphere has layers.
How plants make food from sunlight, grow toward the sky, and reproduce.
How animals see, hear, and sense the world in ways humans cannot.
How rivers carve valleys, build deltas, and create the world's largest river island.
How populations grow, ecosystems connect, and species survive — or don't.
Monsoons, cyclones, and why Cherrapunji gets 12 meters of rain a year.
Silk proteins, clay minerals, bamboo composites — the chemistry of everyday materials.
How electrons flow, circuits work, and lightning strikes over the Brahmaputra.
From compass needles to electric motors — the invisible force that shapes technology.
How lenses bend light to let us see the very small and the very far.
From ocean waves to WiFi signals — the universal language of oscillation.
Why tea cools, metals expand, and the monsoon drives weather across Assam.
The currency of the universe — from a falling mango to a hydroelectric dam.
The basic unit of life — every living thing from a tea leaf to a one-horned rhino is built from cells.
The code of life — how DNA determines whether a seed becomes bamboo or a banyan.
How your heart pumps, lungs breathe, and brain thinks — the engineering inside you.
How species change over millions of years — from ancient fish to Assam's one-horned rhino.
Inside the atom's nucleus — fission, fusion, and the energy that powers stars.
The force that keeps the Moon in orbit and mangoes falling from trees.
Why boats float, planes fly, and the Brahmaputra carves its path.
Why nothing travels faster than light, and why time itself can slow down.
Everything you can touch is made of atoms — tiny, ancient, and indestructible.
The map of all matter — 118 elements organized by their deepest properties.
Why atoms join together — the glue that builds molecules from salt to silk protein.
Atoms rearrange, bonds break and form — the transformations that cook food and rust iron.
The invisible world — bacteria, viruses, and fungi that shape health, soil, and fermentation.
How scientists organize millions of species — from five kingdoms to binomial naming.
From gene to protein — how cells read DNA instructions and build the machinery of life.
Energy flows, nutrients cycle, and biomes from Kaziranga grasslands to Himalayan alpine meadows.
The chemistry of sour lemons, soapy water, and the soil that grows Assam's tea.
Solid, liquid, gas — how temperature and pressure transform everything.
Carbon's four bonds build the molecules of life — from methane to silk protein.
Where chemistry meets electricity — batteries, corrosion, and electroplating.
The ground beneath your feet is moving — how continents drift and earthquakes shake.
Why Cherrapunji drowns in rain while Ladakh is a cold desert — Earth's climate engine.
The building blocks of Earth — from granite mountains to the red soil that grows Assam's tea.
How populations grow, migrate, and build cities — from Guwahati's boom to Ziro's quiet valleys.
Forests, water, minerals, and energy — using Earth's gifts without using them up.
Who eats whom — how energy flows from sunlight through every living thing.
From Kaziranga grasslands to Himalayan alpine meadows — where life thrives and why.
Mutualism, parasitism, and competition — how species shape each other's lives.
Protecting biodiversity — from Kaziranga's rhinos to the world's disappearing species.
Carbon, nitrogen, water — the atoms that cycle endlessly through Earth's living systems.
Eight planets, one star, and billions of mysteries — our cosmic neighborhood.
What your body needs, how diseases spread, and why sleep matters more than you think.
Levers, pulleys, and inclined planes — the physics behind every tool humans ever built.
Air, water, soil — how pollution affects ecosystems and what we can do about it.
How scientists ask questions, test ideas, and build knowledge — the engine of all discovery.
Why prices change, how markets work, and the invisible forces behind every transaction.
How engineers solve problems — from defining the challenge to building, testing, and improving.
Pitch, rhythm, harmony, and the science hiding inside every song.
From your heartbeat to polyrhythms — the science of rhythm and how drums make sound.
Why the sky is blue, how screens make every color from three, and the tricks artists use to create depth on a flat surface.
Gears, engines, and the mechanical principles that move the world.
Why buildings don't fall down, bridges use triangles, and skyscrapers sway on purpose.
Why wheels changed everything, figure skaters spin faster with arms in, and gears trade speed for force.
How bats hunt in darkness, dolphins see with sound, and submarines navigate the deep.
Why the ocean breathes with the Moon, waves carry energy but not water, and coral reefs are underwater cities.
Why birds soar, planes stay up, and skydivers stop accelerating.
Your brain is an electrical storm — 86 billion neurons firing at lightning speed.
The ground under your feet is moving, mountains are growing, and rocks tell stories.
The same water dinosaurs drank is falling from your tap right now.
Fibonacci spirals, tessellations, fractals, and the hidden math in flowers and honeycombs.
The language of patterns — using letters to describe relationships that numbers alone cannot.
Shapes, angles, and spatial reasoning — from bamboo huts to bridge arches.
Triangles unlock the heights of mountains and the orbits of planets.
The mathematics of chance — from coin flips to predicting monsoon rainfall.
Where algebra meets geometry — equations become shapes on a plane.
Primes, factors, and the hidden patterns inside numbers themselves.
The mathematics of change — how slopes and areas reveal the rules behind motion.
From averages to bell curves — the math that describes uncertainty and variation.
Arrays of numbers that transform images, solve systems, and power machine learning.
The mathematics of comparison — from recipe scaling to population growth rates.
The friendly language that reads like English
The three languages every website is built with
JavaScript with guardrails — catch bugs before your code runs
C++ for microcontrollers — talk to the physical world
Fast math on arrays of numbers
Turn numbers into charts and graphs
Teach computers to learn from examples — not by writing rules, but by showing patterns.
Understand the waves hidden in data
The foundation of every electronic device
Test circuits without physical hardware
Sampling, confidence intervals, p-values, and the replication crisis — thinking critically about data.
The building block of all waves
Track every change, collaborate without chaos, and never lose your work again.
Store, query, and organize data — the foundation of every app, website, and AI system.
How apps talk to each other — from weather data to social media to your favorite games.
The recipes and containers of programming — how to organize data and solve problems efficiently.
Passwords, encryption, and staying safe online — the digital self-defense every student needs.
The building blocks of every computer — from simple switches to complex circuits.