These are called resistive magnets, which are largely housed in our DC Field Facility. Many of our magnets run on conventional electricity. All the energy that comes into the Magnet Lab also has to get back out. As we follow the flow of energy through the Magnet Lab, keep in mind that handy first law of thermodynamics: Energy can be changed from one form to another, but it cannot be created or destroyed. The story of how we power our magnets is a story of energy constantly changing form – fire to ice, electricity to magnetism, liquid to gas. Scientists gather data from the world-record 36.2 tesla magnet, located at the rear of this "cell." Read on to learn how the lab has developed unique power and water systems to service these hungry all-stars. Overseen by Magnet Operations Head Bryon Dalton, it is truly the brain of the lab, where all the data comes in and most of the day-to-day operational decisions are made. There, 17 hours a day, highly specialized technicians surrounded by dozens of computer screens keep tabs on every inch of wire, every elbow of plumbing, every temperature reading and field measurement. These trainers staff the MagLab’s Control Room: Picture a smaller version of NASA’s mission control. Think of the electricity we feed these magnets as an endless supply of PowerBars, and the water like a constant flow of Gatorade.īehind any good team are outstanding trainers, and Team Tesla is no exception. (The Earth’s magnetic field is one twenty thousandth of a tesla.) They have an awful lot of power, but to stay in that kind of shape, they need to eat and drink - a lot.Īnd boy, do these athletes get fed vast amounts of electricity and water are needed to keep them competitive. It’s like a team of world-class athletes - Team Tesla, we’ll call them, tesla being the unit of measure of magnetic field strength. In the Control Room of the lab's DC Field Facility.
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