The Story Behind That Iconic Milk Drop Picture
An engineer creates a perfect liquid crown using innovative flash photography.
This photograph captures a sliver in time—1/10,000th of a second, to be exact—when a drop of milk splashes and curves upwards to form an opalescent crown. The photographer spent two decades trying to capture the perfect milk coronet, until he snapped this color shot in 1957.
He was Harold “Doc” Edgerton, a professor of electrical engineering at the Massachusetts Institute of Technology. Known as “the man who made time stand still,” he laid the foundation for high-speed photography with his innovations in flash technology.
“Harold Edgerton combined modern electronics with improved flash tube technology to create very bright, short duration, precision control of light,” says Kim Vandiver, a former colleague and director of MIT’s Edgerton Center, founded in 1992 after Edgerton’s death in 1990. The flash he developed was briefer than ever before, and allowed photographers to capture fleeting moments that go undetected by the human eye.
Edgerton revolutionized glass flash tubes, the capsules that illuminate subjects when photographs are taken. He filled the tubes with xenon, a highly conductive gas that, when triggered by an electrical charge, fires off flashes that are exceptionally bright and brief—mere microseconds long. (One microsecond is 1/1,000,000 of a second). “The light itself essentially acts as a shutter,” Vandiver explains—the camera only captures what’s visible in that fleeting moment of illumination.
Edgerton’s technique could be used to solve industrial problems. When a piece of fast-moving machinery was malfunctioning, for instance, high-speed photography could help identify the problem. But Edgerton recognized the broader appeal of his method, too. “He realized it was revealing things about the world that people had never seen,” Vandiver says. “He then proceeded to take an astonishing range of amazing photographs of everyday things.”
The engineer began artfully freezing fragments of time, such as the moment a bullet exits an apple, or a hammer shatters glass. “The images that you see are iconic in the 20th century,” says Deborah Douglas, curator of science and technology and director of collections at the MIT Museum, which showcases Edgerton’s work. His milk droplets (he made multiple) are among the most memorable.
To capture his famous coronet, Vandiver recalls, Edgerton connected a camera to his xenon gas flash tubes and positioned it in front of a drip that steadily released droplets onto a red pan. He chose milk as the liquid, because of its high contrast and opacity, which made it seem solid when frozen by the camera’s flash. The challenge was to trigger the flash just as the milk collided with another droplet on the surface below and unfurled into the delicate coronet. “It’s a matter of a 1,000th of a second—and the right 1,000th of a second—to get that crown,” Vandiver says.
The human eye wasn’t reliable, so Edgerton used the plummeting drop itself to trigger the flash. He crossed its path with a beam of light connected to a detector. When the liquid bead fell, it briefly blocked the light, registering as a shadow on the detector and causing a voltage pulse, which travelled through an electrical circuit, initiating a flash at a controllable delay.
Over the course of his engineering career, Edgerton continued to design powerful flash units, including one for Allied planes in World War II that illuminated enemy territory during nighttime reconnaissance missions. He also improved multi-flash units that were the predecessors to modern-day strobe lighting, commonly found on police cars and airport runways. “He’s permanently in the DNA of all of these things that we use and work with every day,” says Douglas.
But Edgerton’s vivid images remain his best-known artifacts. After all, they mark the beginning of the kind of high-speed photography that’s now ubiquitous. “These pictures, they’re still magical to us today, but it’s hard for us to really remember how extraordinary they were,” Douglas says. “People had never seen anything like this.”
*This article was updated on June 8, 2015, to reflect the following change: In an earlier version, a quote by Deborah Douglas stated that Harold Edgerton’s images “are iconic in the 21st century.” Douglas has notified us that she meant to say “20th century.”
Emma Bryce is a freelance science writer whose articles have appeared in publications such as The Guardian and Audubon.