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How Fast Can This Circular Collider Launch? #shorts #cern #accelerator #physics #particlephysics #science #challenge #history

In this short video, we explore a miniature circular collider in action — a fun and visual way to understand how real particle accelerators work!

But did you know that CERN is planning something far bigger? Meet the Future Circular Collider (FCC) — a proposed 100-kilometer-long particle accelerator that could dwarf the current Large Hadron Collider (LHC). Just like this small ring launches a metal ball with magnetic pulses, the FCC would accelerate protons and electrons to energies never seen before, unlocking new discoveries in dark matter, quantum physics, and the Higgs boson.

This simple experiment is a powerful way to visualize the future of high-energy physics.

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🔬 Inspired by:
• DIY Circular Colliders
• CERN's FCC Design
• Particle Acceleration Principles
• Magnetic Coil Launch Systems

Step inside the world’s most advanced particle physics lab — CERN, home to the Large Hadron Collider (LHC). In this short video, we explore how CERN is not only smashing protons at near-light speeds, but also accelerating the future of science and technology.
From the discovery of the Higgs boson to the mysteries of dark matter, CERN’s cutting-edge experiments are reshaping our understanding of the universe.
This is where the tiniest particles unlock the biggest answers.

🔬 Featuring:
• The Large Hadron Collider
• Superconducting magnets
• Future science breakthroughs
• Stunning underground visuals

In this video, we build a ring-shaped particle accelerator using metal balls to simulate how particles are accelerated in machines like a cyclotron! 🔬⚡
By spinning the metal ball faster and faster, we can mimic the physics behind real particle accelerators — from magnetic fields to circular motion, and even relativistic effects at high speeds.

This is a fun DIY physics project that shows how particle accelerators like the LHC or older cyclotrons work — all using simple components.

Whether you're a science lover or just curious how physicists smash particles at near light speed — this is a great intro to accelerator physics. 🎥💡


1. CERN
2. Particle Physics
3. Large Hadron Collider
4. Higgs Boson
5. Quantum Mechanics
6. Standard Model of Physics
7. Experimental Physics
8. Theoretical Physics
9. Collider Experiments
10. CERN Discoveries
11. Particle Accelerators
12. Dark Matter
13. Antimatter
14. Physics Breakthroughs
15. Neutrino Research
16. High Energy Physics
17. Quark-Gluon Plasma
18. Physics Explained
19. Fundamental Particles
20. Physics Documentaries
21. Science Communication
22. LHC Experiments
23. Discoveries at CERN
24. Future Colliders
25. Electron-Ion Collider


The biggest machine in science: inside the fight to build the next giant particle collider :
Imagine a machine so powerful it could peel back the layers of reality itself—revealing what the universe is truly made of. 🌌 In this episode of the Particle Physics Podcast, we dive deep into the Future Circular Collider (FCC), CERN’s visionary next-gen particle accelerator that could change the face of physics forever.

🌍 Why is the FCC a big deal?
Because it’s not just bigger than the LHC—it’s smarter, more precise, and more ambitious. Stretching a colossal 91 kilometers beneath Switzerland and France, the FCC could unlock mysteries that have baffled scientists for decades.

🎯 What will the FCC do?
🔹 Smash protons at 100 TeV—nearly 10× the LHC’s energy
🔹 Perform ultra-precise Higgs and electroweak studies using electrons and positrons
🔹 Search for dark matter, supersymmetry, extra dimensions, and more
🔹 Explore the Higgs boson self-coupling and why mass exists
🔹 Possibly reveal new forces or particles beyond the Standard Model

🧪 What makes it unique? It's a two-stage collider:

FCC-ee (Electron–Positron Collider) – a precision machine to study Higgs, W, Z, and top quarks with unmatched accuracy

FCC-hh (Hadron Collider) – the ultimate energy frontier to discover new particles and phenomena

♻️ And it’s designed with sustainability in mind—recovering heat, using renewable energy, and setting new standards in eco-engineering for megascience projects.

💥 This isn’t just about physics—it’s about engineering excellence, international collaboration, and laying the foundation for the next 100 years of discovery.

🎙️ In this episode:
🔹 How does the FCC work?
🔹 Why do scientists want it?
🔹 What could it tell us about the origin of matter, energy, and the universe?
🔹 What’s the timeline, and what are the political hurdles?
🔹 And yes... what makes it cooler than the LHC? 😉

💡 Hit that like, subscribe, and dive into the comments—because this project isn’t just for physicists. It’s a leap for all of us, into the unknown.

The future of physics has a name - and it’s the Future Circular Collider. 🌠