When peanuts are dropped into a pint of beer, they sink to the bottom before floating up and “dancing” in the glass. 

Scientists have dug deep to investigate this phenomenon in a study published on Wednesday, saying it has implications for understanding mineral extraction or bubbling magma in the Earth’s crust. 

Brazilian researcher Luiz Pereira, the study’s lead author, told AFP he first had the idea when passing through Argentina’s capital Buenos Aires to learn Spanish.  

It was a “bartender thing” in the city to take a few peanuts and pop them into beers, Pereira said. 

Because the peanuts are denser than the beer, they first sink down to the bottom of the glass. 

Then each peanut becomes what is called a “nucleation site.” Hundreds of tiny bubbles of carbon dioxide form on their surface, acting as buoys to drag them upward. 

“The bubbles prefer to form on the peanuts rather than on the glass walls,” said Pereira, a researcher at Germany’s Ludwig Maximilian University of Munich. 

When the bubbles reach the surface, they burst. 

The peanuts sink again before being propelled up anew by freshly formed bubbles, in a dance that continues until the carbon dioxide runs out, or someone interrupts it by drinking the beer. 

In a series of experiments, the team of researchers in Germany, Britain and France examined how roasted, shelled peanuts fared in a lager-style beer. 

‘Beer-gas-peanut system’

The study, published in the journal Royal Society Open Science, describes two key factors in what the researchers dubbed the “beer-gas-peanut system.” 

They found that the larger the “contact angle” between the curve of an individual bubble and the surface of the peanut was, the more likely it was to form and grow.  

But it cannot grow too much — a radius of less than 1.3 millimeters is ideal, the study said. 

Pereira said he hoped that “by deeply researching this simple system, which everyone can grasp, we can understand a system” that would be useful for industry or explaining natural phenomena. 

For example, he said the floatation process was similar to the one used to separate iron from ore. 

Air is injected, in a controlled way, into a mixture in which a mineral, such as iron, “will rise because bubbles attach themselves more easily to it, while other (minerals) sink to the bottom,” he said. 

The same process could also explain why volcanologists find that the mineral magnetite rises to higher layers in the crystalized magma of the Earth’s crust than would be expected. 

Like peanuts, magnetite is denser, so should sit at the bottom. But because of a high contact angle, the researchers theorize, the mineral rises through the magma with help from gas bubbles. 

Of course, science is never settled, particularly when beer is involved. 

Hoping to create a better model of the dancing peanut phenomenon, Pereira said the scientists will continue to “play with the characteristics of different peanuts and different beers.” 

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