1. There is enough DNA in an average person’s body to stretch from the sun to Pluto and back — 17 times
The human genome, the genetic code in every human cell, carries 23 DNA molecules each containing from 500 thousand to 2.5 million nucleotide pairs.
DNA molecules of this size are 1.7 to 8.five cm lengthy while uncoiled, or about 5 cm on average. There are approximately 37 trillion cells inside the human body and in case you’d uncoil all of the DNA encased in each cell and put them end to end, then these would sum to a total length of 2×1014 meters or enough for 17 Pluto roundtrips (1.2×1013 meters/Pluto roundtrip).
2. The average human body carries ten times more bacterial cells than human cells
It’s humorous how we compulsively wash our hands, spray our countertops and grimace when a person sneezes close to us—in fact, we do everything we can to avoid unnecessary encounters with the germ world.
The truth of the matter is that everyand each one of us is a walking petri dish! All the bacteria living inner you would fill a half-gallon jug or 10 times more bacterial cells to your body than human cells, in line with Carolyn Bohach, a microbiologist at the University of Idaho. Don’t worry, although. Maximum of those bacteria are helpful; in fact, we couldn’t survive with out them.
For one thing, bacteria produce chemicals that help us harness energy and nutrients from our meals. Germ-free rodents have to consume nearly a third more calories than normal rodents to maintain their body weight, and when the same animals were later given a dose of microorganism, their body fat levels spiked, even if they didn’t eat any more than they had before. The gut bacteria is also very crucial to retaining immunity.
3. It can take a photon 40,000 years to travel from the core of the sun to its surface, but only 8 minutes to travel the rest of the way to Earth
Photon travels, on average, a particular distance d before being briefly absorbed and released by an atom, which scatters it in a new random direction.
From the core to the sun’s surface (696,000 kilometers) where it can escape into space, a photon needs to make a huge number of drunken jumps. The calculation is a little tricky, but the conclusion is that a photon takes between many thousands and many millions of years to drunkenly wander to the surface of the Sun.
In a way, the light that reaches us today is energy produced maybe millions of years ago. Amazing!
4. At over 2000 kilometers long, The Great Barrier Reef is the largest living structure on Earth
Coral reefs consist of huge numbers of individual coral polyps – soft-bodied, invertebrate animals – linked by tissue. The Great Barrier Reef is an interlinked system of about 3000 reefs and 900 coral islands, divided by narrow passages, just beneath the surface of the Coral Sea.Spanning more than 2000 km and covering an area of some 350 000 sq km, it is the largest living structure on Earth and the only one visible from space. But this fragile coral colony is beginning to crumble, battered by the effects of climate change, pollution, and manmade disasters.
5. There are 8 times as many atoms in a teaspoonful of water as there are teaspoonful’s of water in the Atlantic ocean
A teaspoon of water (about 5 mL) contains 2×1023 water molecules, but each water molecule is comprised of 3 atoms: two hydrogen and one oxygen.
Moreover, if you’d laid down end to end each water molecule from a teaspoon full you’d end up with a length of 50 billion km or 10 times the width of our solar system.
6. The average person walks the equivalent of five times around the world in a lifetime
Doing the math; the average person with the average stride living until 80 will walk a distance of around 110,000 miles. Which is the equivalent of walking about 5 times around the Earth, right on the equator.
7. When Helium is cooled to almost absolute zero (-460°F or -273°C), the lowest temperature possible, it becomes a liquid with surprising properties: it flows against gravity and will start running up and over the lip of a glass container!
We all know helium as a gas for blowing up balloons and making people talk like chipmunks, but what most people don’t know is that it comes in two distinct liquid states, one of which is borderline creepy.
When helium is just a few degrees below its boiling point of –452 degrees Fahrenheit (–269 degrees Celsius) it will suddenly be able to do things that other fluids can’t, like dribble through molecule-thin cracks, climb up and over the sides of a dish, and remain motionless when its container is spun. No longer a mere liquid, the helium has become a superfluid—a liquid that flows without friction.
“If you set [down] a cup with a liquid circulating around and you come back 10 minutes later, of course, it’s stopped moving,” says John Beamish, an experimental physicist at the University of Alberta in Edmonton. Atoms in the liquid will collide with one another and slow down. “But if you did that with helium at low temperature and came back a million years later,” he says, “it would still be moving.