Science news and articles on health, environment, global warming, stem cells, bird flu, autism, nanotechnology, dinosaurs, evolution -- the latest discoveries in astronomy, anthropology, biology, chemistry, climate & bioengineering, computers, engineering ; medicine, math, physics, psychology, technology, and more from the world's leading research centers universities.

Microwaved exploding eggs make for an unusual acoustic experiment

0
IMAGE

Credit: Shutterstock/montreep

WASHINGTON, D.C., Dec. 6, 2017 — Microwave ovens are often a fast way of warming food and have become a staple cooking appliance in both household kitchens and restaurants alike. If you have looked closely at the microwave's warnings or have experienced an accidental explosion, you know that certain foods pose a risk due to an increase in their internal pressure. Potatoes and hard-boiled eggs are among the most common culprits of potentially dangerous explosions. While both potatoes and eggs might explode, their mechanisms of bursting are different.

Anthony Nash and Lauren von Blohn, from Charles M. Salter Associates, will present their research on the sound pressures generated by exploding eggs at the 174th Meeting of the Acoustical Society of America, being held Dec. 4-8, 2017, in New Orleans, Louisiana.

Nash and von Blohn explored the mechanism of exploding eggs as part of expert witness testimony for litigation where a plaintiff allegedly suffered severe burns and hearing damage at a restaurant after a microwaved hard-boiled egg exploded in his mouth.

"We needed to quantify the peak sound pressures from an exploding egg so we could compare it to hearing damage risk criteria," said Nash. "At one foot away, the peak sound pressure levels from microwaved eggs covered a wide range from 86 up to 133 decibels. Only 30% of the tested eggs survived the microwave heating cycle and exploded when pierced by a sharp object. On a statistical basis, the likelihood of an egg exploding and damaging someone's hearing is quite remote. It's a little bit like playing egg roulette."

Because there was little scientific literature on the subject, the investigators initially took an unorthodox approach by reviewing YouTube's collection of microwave explosions.

"Those experiments had been done by non-scientists who were casually detonating eggs in a microwave," said Nash. Since their experiments seemed to be more for personal entertainment than for scientific exploration, they did not control for a number of important variables, including measurement of sound levels or internal temperatures, or documentation of the various kinds and sizes of eggs.

For Nash and von Blohn's experiments, they did account for these variables, which were highly controlled. First, selected hard-boiled eggs were placed in a water bath and heated for three minutes, and the temperature of the water bath was then measured both at the middle and end of the heating cycle. Finally, the eggs were removed from the water bath, placed on the floor and pierced with a fast-acting meat thermometer to induce an explosion.

"For both the exploded eggs and eggs that didn't explode, we would probe the inside of the yolk with the thermometer," said Nash. "We discovered that the yolk's temperature was consistently higher than the surrounding water bath."

The implication is that the egg yolk is more receptive to microwave radiation than is pure water (water constitutes about half the weight of an egg yolk). The duo hypothesized that the egg's protein matrix traps small pockets of water within the yolk, causing the pockets to superheat well above the nominal boiling temperature of ordinary tap water. When these superheated pockets are disturbed by a penetrating device, or if one attempts to bite into the egg yolk, the water pockets all boil in a furious chain reaction leading to an explosion-like phenomenon.

Applications of this research may extend past the obvious warnings by manufacturers of microwave ovens and contribute to the growing understanding of impulsive sound sources that cause hearing damage.

###

Abstract: 3aAA11: "Sound pressures generated by exploding eggs," by Anthony Nash and Lauren von Blohn, is at 11:20-11:35 a.m. CST, Dec. 6, 2017 in Studio 9 in the New Orleans Marriott. https://asa2017fall.abstractcentral.com/s/u/3Cw0kpJV_I4

MORE MEETING INFORMATION

USEFUL LINKS

Main meeting website: http://acousticalsociety.org/content/174th-meeting-acoustical-society-america

Technical program: https://asa2017fall.abstractcentral.com/index.jsp

Meeting/Hotel site: http://acousticalsociety.org/content/174th-meeting-acoustical-society-america#hotel

Press Room: http://acoustics.org/world-wide-press-room/

PRESS REGISTRATION

We will grant free registration to credentialed journalists and professional freelance journalists. If you are a reporter and would like to attend, contact Julia Majors ([email protected], 301-209-3090), who can also help with setting up interviews and obtaining images, sound clips or background information.

LIVE MEDIA WEBCAST

A press briefing featuring will be webcast live from the conference Tuesday, Dec. 5, 2017, in room Studio 1 at the New Orleans Marriott. Time to be announced. Register at https://www1.webcastcanada.ca/webcast/registration/asa617.php to watch the live webcast.

ABOUT THE ACOUSTICAL SOCIETY OF AMERICA

The Acoustical Society of America exists to generate, disseminate, and promote the knowledge and practical applications of acoustics. Two society meetings are held each year throughout the U.S. and Canada where acousticians can exchange information with various other researchers. For more information: http://acousticalsociety.org/

Media Contact

Julia Majors
[email protected]
301-209-3090
@acousticsorg

http://acousticalsociety.org/

Leave A Reply

Your email address will not be published.