Science is hard enough to understand, especially when there are so many “facts” floating around that aren’t actually true. You’ve probably heard more than half of the facts below. Here’s the real science behind them.
To help your brain grow even more, here are some ‘did you know’ facts that most people don’t know.
While this is a science myth, it doesn’t mean you should bring your toaster in the bath with you. The reason you shouldn’t swim in a lightning storm doesn’t have to do with the water itself. Pure water is actually an insulator, which means it doesn’t conduct electricity. The danger comes from the minerals and chemicals in it called ions, which have an electric charge. While pure water is theoretically safe around electricity, it’s nearly impossible to find it in the real world because even distilled water has ions.
A widely shared myth is that blood is blue until it is exposed to air or replenishes its oxygen. Because veins are a greenish blue, that theory sounds reasonable enough. But the fact is, human blood looks the same in your body as outside: red. That hue is brighter when it’s oxygen-rich and darker when it needs that oxygen replenished, but it’s red all the same. The tissue covering your veins affects how the light is absorbed and scattered, which is why the blood circulating your body looks blue.
The giant, scaly lizards you see in Jurassic Park probably don’t look that close to what actual dinosaurs looked like. While scientists are still debating what the oldest and biggest species were covered with, one thing is for sure: At least some had feathers. Velociraptor arm fossils have bumps that look just like the ones keeping modern birds’ wings in place, and bones of a Siberian species discovered in 2014 were surrounded with imprints of feathers. While some scientists argue larger species like the tyrannosaurus rex didn’t need big feathers, others theorise that they had at least some form of light feathering
The idea of unlocking hidden brain power might make a compelling storyline for a movie, but it simply wouldn’t happen in real life. One fact playing into the myth is that 90 percent of brain cells are “white matter” that help neurons survive, and only ten percent is the “grey matter” of neurons in charge of thinking. But that white matter could never be used for brain power, so claiming 90 percent of our brain is wasted is like saying you waste peanuts when you throw out the shells. Any fMRI scan will show you that even saying a few words lights up way more than ten percent of your brain. Scientists haven’t uncovered any area of the brain (much less 90 percent) that doesn’t affect thought, movement or emotion in some capacity.
Interestingly, this myth has been around at least since 1932, when a Ripley’s Believe it or Not! cartoon deemed the Great Wall of China is “the mightiest work of man – the only one that would be visible to the human eye from the moon.” Of course, that was almost 30 years before a machine would touch down on the moon, so the claim was entirely unfounded. Astronauts have now confirmed that even the Great Wall actually can’t be seen from space, except at low altitudes. Even at those (relatively) low heights, it’s actually easier to see roads and plane runways, whose colours don’t blend into the ground like the Great Wall’s do.
Yes, chameleons can change colour by stretching and relaxing cells that contain crystals, which affects how the light is reflected. They can’t change into any colour to match their surroundings, though, and their colour changes don’t have much to do with camouflage. Instead, chameleons use the crystals mainly for communication (dark colours signal aggression, like when a female doesn’t want to mate), but also temperature control (lighter colours reflect the heat). Those changes aren’t directly used for camouflage, though – just the opposite, in fact. The dull brown and green “resting colours” of chameleons blend in with their surroundings until they switch it up.
First of all, let’s get one thing straight: Neanderthals aren’t ancestors to modern humans. The two species lived at the same time, mostly in different areas of the globe. When the species did cross paths, there’s even evidence that they interbred. But evidence doesn’t suggest they were cognitively inferior to humans. Fossils show Neanderthals made tools, used fire, cleaned their teeth, ate medicinal plants, buried their dead and maybe even cared for their sick and wounded. Scientists no longer think Homo sapiens wiped out their Neanderthal cousins. Neanderthals likely were already dying out as the climate changed, while modern humans’ trade networks, diverse diets and innovative tools helped them survive.
Of course, we have yet to find any intelligent life living off interstellar water, but H2O isn’t unique to Earth. Dark streaks that change on Mars suggest there isn’t just ice on the Red Planet – liquid salt water likely flows on it. What’s more, NASA discovered that beneath a layer of ice on Jupiter’s moon Europa, there’s an ocean containing twice as much water as we have on Earth. Could faraway planets with water sustain intelligent life? Only time will tell.
Don’t freak out if you can’t find a bin and need to swallow your gum. The truth is that your body can’t digest gum, not even in seven years. That doesn’t mean it sticks inside your system, though. It will pass through your digestive system without being broken down, then come out in the bathroom like anything else. If kids swallow too much, the gum could block their intestines, but that’s extremely rare.
Fish are smarter than you thought. One study found the freshwater fish African Cichlids could remember the feeding zone of an aquarium after moving to a different tank for 12 days. Lest you think goldfish are any different, another study looked specifically at goldfish and whether they could tell the difference between two different classical songs. They weren’t quick learners, but after more than 100 sessions, the fish would bite a bead associated with the correct song 75 percent of the time. If their memories were really three seconds, that kind of training wouldn’t be possible.
The story goes that even an innocent coin dropped from the 381-metre-tall Empire State Building would build up enough speed on the way down to kill a bystander below. In reality, though, it wouldn’t do much damage – if any. First of all, air resistance called “drag force” would mean the coin would stop accelerating at some point, and reach its max speed about 15 metres from its drop point, according to Scientific American. By the time it reached the ground, it would be moving just 40 kilometres per hour. That might sting, but it wouldn’t be enough force to break your skull. MythBusters took the theory to an extreme and shot a coin at 914 metres per second, but even that wasn’t strong enough to break bones.
The birds would die of suffocation if they actually stuck their heads underground when scared. Instead, they actually lie with their head and neck flat against the ground if a predator is approaching. Their light-coloured head and neck blend in with the ground, which could explain why people assumed their heads were underground from faraway, according to the San Diego Zoo.
You’ve probably seen cartoons – maybe even photos – of opossums lounging upside-down from their tails. While opossum tails are strong enough to grasp branches and even hold the animals’ weight for a short period, adults are too heavy for their tails to support them for long, so they can’t stay like that while sleeping.
Don’t blame the cake if your kid is acting out at a party. The “sugar high” theory started in 1978, when one study found that kids with hyperkinesis, a hyperactivity disorder, had low blood sugar, which, weirdly enough, can be a sign of eating too much sugar. That study was later discredited when researchers realised the “abnormally low” blood sugar was actually considered normal. Since then, double-blind studies have shown sugar doesn’t make kids any more hyper than a placebo. If anything, it’s probably your own expectations. One 1994 study found that after five- to seven-year-old boys took a placebo, the mums who were told their sons had eaten a large dose of sugar were more likely to say their kid was acting hyper. Your kid might also just be excited to let loose with their friends at a party.
Anyone familiar with lightning rods could probably already tell you there’s nothing stopping lightning from hitting the same spot twice. The Empire State Building, for example, once endured eight strikes in 24 minutes during a storm. Even without a lightning rod, there’s nothing keeping lightning away from the spot that just got hit. In fact, the features that made the spot likely to get hit once – height, presence of standing water, or terrain shape for example – would be just as attractive to a second bolt, according to the National Severe Storms Laboratory.
Surprise! Both parts of this myth are false. Scholars have known the Earth is round for thousands of years. Greek philosopher Pythagoras first suggested the idea around 500 B.C., though his thought process had to do with the fact that he thought spheres were the most perfect shape. Still, Aristotle actually found physical evidence backing up his predecessor’s theory. By the time the first century A.D. rolled around, any educated Greek or Roman believed in a round planet. When Christopher Columbus took on his voyage, the fear was that the oceans would be too big, not that he’d fall off the face of the earth. In perhaps the biggest twist, though, Earth isn’t a perfect sphere; the North and South Poles are flattened slightly.
You might think people who look superficially different would have big differences in their genes, but that’s not the case. According to the National Human Genome Research Institute, humans share 99.9 percent of their genes with each other. Even that 0.1 percent doesn’t have any racial markers. In fact, a groundbreaking 2002 study revealed there is more genetic diversity between people of African descent than between Africans and Eurasians. You can use your genes to trace your ancestors’ geography, but that doesn’t directly tie in to race. Case in point: Sickle cell anaemia isn’t a general “African” disease, as it’s normally described; it’s more common in West Africans, but also in Mediterranean, Arabian and Indian populations.
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