The Best Way to Drop an Egg Without Breaking It, According to Science
Here's hoping Humpty Dumpty reads the news. In research out today, scientists have apparently figured out the safest way to drop an egg without it breaking.
Researchers at MIT conducted the study, published Thursday in Communications Physics. After nearly 200 experiments, the team determined that dropping an egg horizontally is more likely to keep it intact than a vertical drop—completely contrary to folk wisdom.
MIT and many other schools regularly host an 'egg drop challenge' for their students. The goal is simple enough: use some ingenuity and basic materials like toothpicks and twine to construct a contraption that will keep their eggs from breaking once dropped.
But according to study researcher and engineer Tal Cohen, both teachers and online sources will often also recommend that the egg stays vertical to further lower the risk of cracking. The underlying assumption behind this advice is that the egg's vertical structure resembles an arch, and arches are very good at redistributing the loads of energy (or force) placed on them.
'After a number of times doing this competition, we started to question the common notion. We weren't convinced that the static explanation, which applies to an arch, translates to the case of dynamic impact,' Cohen, an associate professor in the Sustainable Materials and Infrastructure department at MIT, told Gizmodo.
Cohen and her team took some of the eggs left behind at the end of a recent MIT challenge to test their hunch in the lab, but their initial experiments were inconclusive. So they decided to start a formal and more extensive project.
In total, they dropped 180 eggs either vertically or horizontally onto a hard surface. The eggs were dropped in rounds of 60 each at three different heights: 8, 9, and 10 millimeters (basically between 0.32 and 0.39 inches). And overall, the vertically dropped eggs fared worse. More than half of the vertical eggs broke when dropped 8 millimeters, for instance, compared to less than 10% of horizontal eggs. Further tests also showed that the horizontally dropped eggs could compress more before breaking than the vertically dropped ones.
The findings might not be world-changing, but they illustrate how our conventional wisdom can sometimes lead us astray, even the kind that's taught in science classrooms.
'People tend to have better intuition for stiffness and strength, which are important in statics. It is common that they refer intuitively to the redistribution of a load along the arch. However, when dynamics are involved, toughness is also an important quantity,' Cohen said. 'For example, consider two balls; one made of glass, and the other of rubber. The glass ball is stiffer and may have higher strength, but when dropped from a height, the glass ball is also more likely to break, while the rubber ball can deform to absorb the kinetic energy, without breaking.'
Cohen notes that there are plenty of things in both nature and engineering like eggs that have thin shells protecting their inner contents. So their research here could very well help 'influence how people think about these structures as well,' she said.
Personally, I'm just glad I'll have another reason to be mad at myself when I inevitably drop my next egg onto the kitchen floor while cooking—I should have remembered to keep it horizontal!
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
CBS News
12 minutes ago
- CBS News
Tiny fragment of asteroid giving Field Museum scientists a glimpse 4.6 billion years into the past
The Field Museum is the new temporary home to a tiny piece of pristine asteroid. The fragment of the asteroid Bennu, on loan from NASA, won't be on display for visitors, but will give scientists the chance to study an asteroid sample uncontaminated by Earth's atmosphere. A tiny, black fragment might not seem exciting, until a scientist explains it's a specimen from space. "It's an honor of a lifetime to be able to study this sample," said Field Museum curator Dr. Philipp Heck. How did Heck feel when the little rock first arrived at the museum and he held the vial containing the sample? "It was amazing. I was looking forward to that moment for a long time," he said. NASA's OSIRIS-REx mission was planned decades ago. In 2016, a spacecraft launched. In 2018, it arrived at Bennu, a near-Earth asteroid as wide as the Sears Tower is tall. The mission collected pieces of the asteroid and brought them back to Earth in 2023. "This is the first U.S. mission that sends a spacecraft to the asteroid and brings a sample back to Earth," said University of Chicago graduate student Yuke Zheng, who is part of the OSIRIS-REx sample analysis team. "It's a tiny, dark, black fragment that is fragile, so we want to protect it very carefully." She'll use the museum's scanning electron microscope to get an up-close look at a tiny sample of Bennu. "What struck me is how dark the sample is. I had never seen such a dark sample," Heck said. The fragment is like a time capsule, taking scientists back 4.6 billion years. "We believe Bennu contains part of the ingredients for life, and part of the ingredients of the formation of Earth," Heck said. Suddenly, a fragment at the bottom of a vial can have you pondering your place in the universe. "I've never studied a pristine sample from an asteroid," Heck said.
Medscape
16 minutes ago
- Medscape
Fast Five Quiz: Late-Onset Pompe Disease
Multiple genetic variants have been associated with LOPD. However, the c.-32-13T>G splice site variant is found in up to 90% of adults and 50% of pediatric patients. Patients with LOPD often have compound heterozygous genotypes, with one allele carrying the common c.-32-13T>G splice-site variant and the other harboring a more deleterious GAA mutation (eg, nonsense, frameshift, or large deletion). Other variants— such as and c.1935C>A — are more commonly seen in infantile forms of Pompe disease. Learn more about the pathophysiology of LOPD. Diagnosis of LOPD typically follows a two-step approach: first, measuring GAA enzyme activity (often via dried blood spot assay) followed by confirmatory molecular genetic testing to identify pathogenic GAA variants. Although once considered a first-line diagnostic tool for LOPD, muscle biopsy is no longer preferred due to its invasive nature and the non-specificity of histologic findings. Muscle biopsy may still be considered in rare, ambiguous cases when enzyme and genetic testing are inconclusive or conflicting. CK levels might be elevated in some patients but are nonspecific and primarily serve to raise clinical suspicion. Learn more about the workup for LOPD. Enzyme replacement therapy (ERT) has significantly changed the natural history of the disease by improving survival and stabilizing motor and respiratory function. However, key limitations in skeletal muscle uptake and variability in clinical response remain. This is due to low expression of the mannose-6-phosphate receptor in muscle tissue, which hampers enzyme internalization. As a result, patients might experience a limited or plateaued response. Newer approaches, including modified ERT and gene therapy, are being developed to address this issue. High toxicity to cardiac muscle, uniform patient response, and development of cardiac hypertrophy have not been reported as key limitations. Learn more about treatment options for LOPD. NBS programs have reshaped the understanding of Pompe disease, particularly LOPD. A significant proportion of screen-positive newborns harbor genetic variants associated with LOPD, including pseudo deficiency alleles and variants of uncertain significance. These individuals are often asymptomatic at birth and might not develop symptoms for years, if at all. This has raised important clinical questions around monitoring, counseling, and when (or whether) to initiate therapy; expanded screening has also revealed that the true prevalence of LOPD might be higher than historical estimates suggested. Learn more about the management of LOPD. Editor's Note: This article was created using several editorial tools, including generative AI models, as part of the process. Human review and editing of this content were performed prior to publication. Lead image: UCSF/Science Source
Yahoo
30 minutes ago
- Yahoo
Put the paintbrush down – AI can restore artworks quicker and better
Artificial intelligence (AI) could spell the end of art restoration by humans after MIT showed that damaged paintings can be repaired in just a few hours. Typically, conservators spend months or years researching and matching paints, colours and techniques to ensure the finished product is as close to the original as possible. But Alex Kachkine, an engineering graduate at MIT, has shown it is possible to use AI to fill in the damaged areas digitally, then print the restored layers onto a thin film to attach on top of the painting. It means the painting appears restored even though the original is still intact beneath. The method was applied to a highly damaged 15th-century oil painting, and AI immediately identified 5,612 separate regions in need of repair, and filled in these regions using 57,314 different colours. The entire process, from start to finish, took just three and a half hours. 'There is a lot of damaged art in storage that might never be seen,' said Mr Kachkine. 'Hopefully with this new method, there's a chance we'll see more art, which I would be delighted by.' In recent years, digital restoration tools have allowed conservators to create virtual representations of restored works. AI algorithms can quickly sift through huge amounts of data about artists and time periods to generate a digitally restored version of a particular painting, in a way that closely resembles the correct style. However, digital restorations are usually displayed virtually or printed as stand-alone works and until now there has never been a way to translate the digital restorations on to the original work. The new technique involves first scanning the painting and then using software to create maps of the areas that require repair, before matching the correct colours. The maps are then inkjet printed onto two sheets of a film. One film, which sits underneath, is printed in white so that the colours overlaid on the second sheet are not muddied by the colours of the original painting. The layers are carefully aligned and overlaid by hand onto the original painting and adhered with a thin spray of varnish. The printed films are made from materials that can be easily dissolved with conservation-grade solutions, in case conservators need to reveal the original, damaged work. The digital file of the mask can also be saved as a detailed record of what was restored. For the painting that Mr Kachkine used, the method was able to fill in thousands of losses in just a few hours. 'A few years ago, I was restoring this baroque Italian painting with probably the same order magnitude of losses, and it took me nine months of part-time work,' he said. 'The more losses there are, the better this method is.' The new technique may even help restore botched restorations such as Elias Garcia Martinez's Ecce Homo, which was restored so badly it was dubbed Monkey Christ, because of the Simian features of Jesus. Mr Kachkine acknowledges that there were ethical issues to consider, in terms of whether a restored version was an appropriate representation of an artist's original style and intent. He said the process should be carried out in consultation with conservators with knowledge of a painting's history and origins to check the AI programme was not going off-piste. 'Restoring a painting is fun, and it's great to sit down and infill things and have a nice evening,' he added 'But that's a very slow process.' The research was published in Nature. Broaden your horizons with award-winning British journalism. Try The Telegraph free for 1 month with unlimited access to our award-winning website, exclusive app, money-saving offers and more.
