from the world's big
Behold, close-ups of the sand from around the cosmos
Think you've seen sand? You haven't seen sand.
- Microscopic photography exposes the beauty and strangeness of sand.
- Water wave action produces a startling variety of sand grains.
- That stuff between your toes is a lot more interesting than you might think.
We typically refer to grains of sand as uncountable tiny bits of rock whose most interesting characteristic is just how many of them there are. Like stars in the sky. We do them a disservice. Even the Oxford Dictionary defines them nearly as "A loose granular substance, typically pale yellowish brown…"
Scientist, author, teacher and photographer Gary Greenberg knows better. This doctor of developmental biology invents and patents high-definition, three-dimensional light microscopes. He's the founder of Edge-3D, for which he develops innovative 3D imaging devices — some of his technology is currently in use on the International Space Station.
Since 2011, Greenberg's been photographing everyday objects whose beauty and complexity is revealed only when they're magnified. His photographs of sand reveal a world of fascinating shapes and colors which we had no idea existed. High-quality prints of his images are available for sale on his website.
Greenberg explains what we see in each of photo. (We've edited his text slightly.)
This image is a handful of sand grains selected from a beach in Maui and arranged onto a black background. The colors and shapes of these tiny grains of sand are surprisingly different and astonishingly beautiful, each with its own individual character.
#2. Hamoa sponge spicule
Elegant beauty in a sponge spicule fragment from a glassy sponge found in sand from Hamoa Beach, Maui, Hawaii.
3. Okinawa, Japan puffy stars
These are star-shaped, calcium carbonate shells, or "tests," produced by tiny forams, single-celled ocean organisms. Cute sand grains?
4. Lunar sand
Apollo 17 astronauts discovered this "orange soil" on the rim of Shorty Crater in the Taurus Littrow Valley. These tiny, glassy orange spherules originate from a fire-fountain volcano that erupted over 3.8 billion years ago.
5. Plum Island garnet grains
These come from Plum Island, Rowley, Massachusetts, the northernmost barrier island in the United States. Its beach gets its pink color from garnets in the sand. Denser than most other sand grains, they get left behind as the waves sweep less dense material away.
6. Great Bahama Bank ooids
There are three areas in the world where ooids are created from tidal currents that keep mineral grains in constant motion. This results in carbonate precipitation forming around them. One of these locations is the Great Bahama Bank — these come from Joulter Cays, located about ten miles north of Andros Island in the Bahamas.
7. Corsican sand mask
A single grain of sand from the island of Corsica, France, looks like a mask. Or an Angry Birds pig snout.
8. Sand from South Point, Hawaii
These grains are from South Point on the Big Island of Hawaii. The translucent green grains are olivine — at South Point on Mauna Loa's southwest rift, the pounding surf erodes a forty-nine-thousand-year-old volcanic cinder cone made of olivine. The deep-red grain (upper left) is volcanic rock.
9. A tiny sapphire in Japanese sand
There appears to be sapphire crystal in this sand from Japan. Who knows what you'll find under your feet if you look?
Join multiple Tony and Emmy Award-winning actress Judith Light live on Big Think at 2 pm ET on Monday.
The team caught a glimpse of a process that takes 18,000,000,000,000,000,000,000 years.
- In Italy, a team of scientists is using a highly sophisticated detector to hunt for dark matter.
- The team observed an ultra-rare particle interaction that reveals the half-life of a xenon-124 atom to be 18 sextillion years.
- The half-life of a process is how long it takes for half of the radioactive nuclei present in a sample to decay.
What we know about black holes is both fascinating and scary.
- When it comes to black holes, science simultaneously knows so much and so little, which is why they are so fascinating. Focusing on what we do know, this group of astronomers, educators, and physicists share some of the most incredible facts about the powerful and mysterious objects.
- A black hole is so massive that light (and anything else it swallows) can't escape, says Bill Nye. You can't see a black hole, theoretical physicists Michio Kaku and Christophe Galfard explain, because it is too dark. What you can see, however, is the distortion of light around it caused by its extreme gravity.
- Explaining one unsettling concept from astrophysics called spaghettification, astronomer Michelle Thaller says that "If you got close to a black hole there would be tides over your body that small that would rip you apart into basically a strand of spaghetti that would fall down the black hole."
A new study looks at what would happen to human language on a long journey to other star systems.
- A new study proposes that language could change dramatically on long space voyages.
- Spacefaring people might lose the ability to understand the people of Earth.
- This scenario is of particular concern for potential "generation ships".