【AI前沿】Build a Radio Wave Detector With Balls of Aluminum Foil!

Rhett AllainScienceMay 15, 2026 7:00 AMBuild a Radio Wave Detector With Balls of Aluminum Foil!Here’s how you can hack together a radio transmitter and receiver out of stuff you have at home—and explore the weirdness of wireless.Photograph: Bettmann/Getty ImagesCommentLoaderSave StorySave this storyCommentLoaderSave StorySave this storyThe “Golden Ageof Radio” supposedly ended in the ’50s, with the advent of television. But guess what? TV shows were broadcast with radio signals. And today? Radio is everywhere. You have a radio in your car, but maybe you prefer to stream music on your phone. Well, how does the music get to you? Yeah, via radio waves from cell towers. Your GPS runs on radio too. For that matter, so do your home Wi-Fi and Bluetooth.Radio waves are a kind of electromagnetic radiation, just like visible light. But they’re at the bottom end of the spectrum, which makes them harmless to humans because low frequency means low energy. (High-frequency, high-energy radiation like x-rays or gamma rays are another story.) That’s part of the reason radio waves are ideal for wireless communication. They can also travel vast distances and pass through obstacles like walls.So radio is as relevant as ever. But did you know you can easily build your own radio transmitter and receiver at home with some simple supplies? I’m going to show you how. It’s a fun project and a good excuse to explore some cool physics.What Is an Electromagnetic Wave?For that matter, what is a wave? Imagine you have a long string with one end tied to a door handle. You’re standing across the room, holding the other end. Now, if you shake your hand up and down, you’ll create a disturbance on the string, and that disturbance will move along the length of the string.That’sa wave. Basically, waves transfer energy without transferring matter.What if you take away the string? In that case, you’d look like a sad human shaking hands with an imaginary friend. Without the string, there’s no wave. Waves need something to “wave” in—they need a medium. You can’t have ocean waves without water. You can’t have sound waves in space, since there’s no air for them to ripple through.But what if, instead of string, you shook an electric charge (like an electron) up and down? Electric charges create electric fields, so thismovingcharge will create an oscillating electric field, and that makes an electric wave. And here’s where it gets weird: It turns out that a changing electric field also creates a changingmagneticfield. And vice versa: A changing magnetic field creates a changing electric field. We know this fromMaxwell’s equations.This means we have electric and magnetic oscillations traveling together, and each is the medium of the other. The combination is called electromagnetic radiation, also known as “light.” Yes, radio waves are just light, and lightcanself-propagate through empty space—at the speed of light, as a matter of fact.A Piezoelectric Radio StationOK, let’s make a radio wave! For a transmitter, all you need is a grill lighter—you know, the kind with the long tube. When you hold down the trigger, gas is released through the end of the tube and is ignited with a small spark. Here’s one I cut in half:Photograph: Rhett AllainSee that piezoelectric crystal? These things are amazing. When you hit them they get momentarily deformed, and that produces a high voltage for a split second. So the trigger on the lighter has a spring-loaded hammer that whacks the crystal, and the voltage results in a spark.That’s great for a barbecue, but for a radio what we want is the voltage, not the spark per se. That voltage from the crystal creates an electric field, which exerts a force on free charges in the air. (There’s always some free charges floating around, like electrons and ions.) These charges accelerate and collide with air molecules, kicking loose more free electrons that also accelerate and collide, and so on, in an exponential chain reaction. We call this an electron avalanche.And guess what happens? Accelerating charges create a changing electric field—which, yup, creates a changing magnetic field, etc., and that disturbance radiates outward as an electromagnetic wave. Oh, and in the process, nitrogen and oxygen atoms in the air get excited. When they drop back down to a lower energy level, they emit light. That’s the visible spark.So let’s put this into practice. If you have an AM radio, try this: Tune it to someplace on the dial where there is no station. Now hold the lighter near the antenna and pull the trigger. You will hear a nice littleclickthrough the speakers. That’s because you are producing radio waves. Cool, right? That lighter is a radio transmitter. Now all we need is a receiver.The Coherer ReceiverTo detect the radio wave, we are going to build a simple circuit. It consists of a container with a bunch of aluminum foil balls connected to a button cell battery and an LED. This is what it looks like:Photograph: Rhett AllainYou need a