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Welcome to Lenara Learning – your place to learn quantum physics in a way that actually makes sense! Have you ever heard that a particle can be in two places at once? Or that just looking at something can change what it does? That’s quantum physics – the science of the super small!
In this quantum physics for kids section, you’ll explore the tiniest building blocks of the universe. It’s full of strange ideas like particles that pop in and out of existence, spooky links between atoms, and Schrödinger’s cat—a thought experiment about a cat that’s both alive and dead.
You’ll find out what atoms are made of and how light can behave like both a wave and a particle. We’ll also show how quantum computers use this science to work in amazing ways. Along the way, you’ll meet scientists like Niels Bohr, Werner Heisenberg, and Erwin Schrödinger. Their work helped us understand this fascinating field.
We’ll dive into quantum entanglement, uncertainty, probability, and the mysteries that still challenge scientists today. These are big ideas, but we’ll break them down step by step.
At Lenara Learning, we make complicated topics easier. You’ll learn quantum physics through clear guides, short reads, cool stories, and real-world examples.
Over the coming weeks, we’ll add new lessons on Quantum Foundations, Quantum Mechanics Basics, Quantum Systems, Quantum Technologies, Quantum Physics Interpretations, Advanced Quantum Concepts, and Quantum Physics in the Universe. Keep checking back—there’s plenty more to explore!
Browse the topics below, in order, to start learning Quantum physics
Schrödinger’s Cat is a strange and clever thought experiment used to show how weird quantum physics can be. Find out what it means, why it was created, and how it changed science forever. This article explores superposition, particles, and parallel possibilities.
Quantum physics explores how tiny particles behave in surprising ways. From electrons being in two places at once to particles connected across space, this article explains everything in simple, clear steps. Learn how the quantum world is different from our everyday experiences, and why that matters.
This article explores the strange but true concept of wave-particle duality—where light and matter behave as both particles and waves. Learn how experiments like the double-slit experiment and the photoelectric effect revealed this dual nature, and find out how it affects everything from lasers to solar panels.
The double-slit experiment changed science forever by showing that tiny particles like electrons behave like waves. Even stranger, just observing them can change how they act. This article explores wave-particle duality, quantum interference, and the mystery of how reality itself responds to being watched.
Ever tried to measure something so tiny that even light changes it? That’s what scientists face when studying atoms and electrons. Heisenberg’s Uncertainty Principle shows us there are limits to what we can know. It’s not about being wrong — it’s about how the universe really works at its smallest level.
Quantum superposition is one of the most puzzling ideas in physics. It explains how particles like electrons can exist in multiple states at the same time. From Schrödinger’s cat to quantum computing, this guide explores what it all means — and why it matters.
The Schrödinger Equation is a cornerstone of quantum mechanics. It describes how particles like electrons behave as waves, changing over time in unpredictable but mathematically precise ways. This equation helps us understand atoms, design technologies like MRI machines and lasers, and explore the deep mysteries of quantum probability, wavefunctions, and particle-wave duality in the microscopic world.
