Edison Plant at Taylor’s-on-Schroon, NY, 1890s.

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Edison Plant at Taylor’s-on-Schroon, NY, 1890s.

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So cool: The first gear in a living creature discovered. The tiny issus nymph has these interlocking gears in its leg.
This miniature marvel is an adolescent issus, a kind of planthopper insect and one of the fastest accelerators in the animal kingdom. As a duo of researchers in the U.K. report today in the journal Science, the issus also the first living creature ever discovered to sport a functioning gear. “Jumping is one of the most rapid and powerful things an animal can do,” says Malcolm Burrows, a zoologist at the University of Cambridge and the lead author of the paper, “and that leads to all sorts of crazy specializations.”
When glass breaks, the cracks move at around 3000 Miles per hour!! (4500km/h!) That’s why, even in slow motion, the main cracks in the glass appear virtually instantly as the hammer hits.
So I just saw this on my dash and realized that some people don’t know what quicksand is or how to stop/prevent themselves from sinking in it :)
How Quicksand Works
With quicksand, the more you struggle in it the faster you will sink. If you just relax, your body will float in it because your body is less dense than the quicksand.
How many times have you watched a movie where the hero is sucked down into a pit of quicksand, only to be saved at the last minute by grabbing a nearby tree branch and pulling himself out?
If you believed what you saw in movies, you might think that quicksand is a living creature that can suck you down into a bottomless pit, never to be heard from again. But no — the actual properties of quicksand are not quite those portrayed in the movies.
Quicksand is not quite the fearsome force of nature that you sometimes see on the big screen. In fact, the treacherous grit is rarely deeper than a few feet.
It can occur almost anywhere if the right conditions are present. Quicksand is basically just ordinary sand that has been so saturated with water that the friction between sand particles is reduced. The resulting sand is a mushy mixture of sand and water that can no longer support any weight.
If you step into quicksand, it won’t suck you down. However, your movements will cause you to dig yourself deeper into it. In this article, you will learn just how quicksand forms, where it’s found and how you can escape its clutches if you find yourself hip-deep in it.
Next, we’ll find out how the ground shaking beneath your feet can lead to sand slipping beneath your weight. So head to the next page — quick.
What’s Quicksand?
Quicksand is an interesting natural phenomenon — it is actually solid ground that has been liquefied by a saturation of water. The “quick" refers to how easily the sand shifts when in this semiliquid state.
Quicksand is not a unique type of soil; it is usually just sand or another type of grainy soil. Quicksand is nothing more than a soupy mixture of sand and water. It can occur anywhere under the right conditions, according toDenise Dumouchelle, geologist with the United States Geological Survey (USGS).
Quicksand is created when water saturates an area of loose sand and the ordinary sand is agitated. When the water trapped in the batch of sand can’t escape, it creates liquefied soil that can no longer support weight. There are two ways in which sand can become agitated enough to create quicksand:
Flowing underground water - The force of the upward water flow opposes the force of gravity, causing the granules of sand to be more buoyant.
Earthquakes - The force of the shaking ground can increase the pressure of shallow groundwater, which liquefies sand and silt deposits. The liquefied surface loses strength, causing buildings or other objects on that surface to sink or fall over.
Vibration tends to enhance the quickness, so what is reasonably solid initially may become soft and then quick, according to Dr. Larry Barron of the New South Wales Geological Survey.
The vibration plus the water barrier reduces the friction between the sand particles and causes the sand to behave like a liquid. To understand quicksand, you have to understand the process of liquefaction. When soil liquefies, as with quicksand, it loses strength and behaves like a viscous liquid rather than a solid, according to the Utah Geological Survey. Liquefaction can cause buildings to sink significantly during earthquakes.
While quicksand can occur in almost any location where water is present, there are certain locations where it’s more prevalent. Places where quicksand is most likely to occur include:
Riverbanks
Beaches
Lake shorelines
Near underground springs
Marshes
The next time you’re at the beach, notice the difference in the sand as you stand on different parts of the beach that have varying levels of moisture. If you stand on the driest part of the beach, the sand holds you up just fine. The friction between the sand particles creates a stable surface to stand on.
If you move closer to the water, you’ll notice that the sand that is moderately wet is even more tightly packed than the dry sand. A moderate amount of water creates the capillary attraction that allows sand particles to clump together. This is what allows you to build sand castles.
But beach sand could easily become quicksand if enough water were thrust up through it. If an excessive amount of water flows through the sand, it forces the sand particles apart. This separation of particles causes the ground to loosen, and any mass on the sand will begin to sink through it. In the next section, you will find out how to save yourself if you happen to fall into a pit of quicksand.
Read more
Gif source: 4GIFS (obviously lol)
via scienceyoucanlove
There is zero rotational motion in this picture. Every single one of the dots is oscillating on a straight line.

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Cool pic: Undersea cables are all sheathing. The internet flows on a 3 strands of FiberOptics http://bit.ly/15SKSXN pic.twitter.com/SYyUSzVzdz
i just really love mechanisms
A microwave and the ingredients shown in the picture (a ruler and a bar of chocolate) is all what you need to measure the speed of light. Well, and a bit of elementary physics: the relation between wavelength and frequency. Don’t believe me? Take a look to details at Null Hypothesis.
Airplane Winglets Will Save United $200 Million per Year in Fuel Costs
Increasing the fuel efficiency of a commercial jet doesn’t have to mean reworking the entire fuel system. Airlines like United have been installing simple winglets onto their existing fleet, which helps to manage air flow and make for an easier ride. The wing extensions can help the airline save up to $200 million in fuel costs each year, making for a simple and effective way to cut down on fuel. Jutting out from the end of each wing like an extra fin, the winglets help to smooth the passage of air around the body of the plane, cutting down on the turbulent flow and cutting drag- two things that lead to more fuel consumption. The perpendicular add ons are incredibly cost effective, only requiring the initial installation cost, and require little maintenance. As winglet designs improve, so does fuel efficiency. United Airlines has just unveiled an even more advanced Scimitar design by Aviation Partners Boeing that not only has the upturned wing feature, but also a ventral strake at the bottom of the plane for even more turbulent air diversion. United says that with the winglet, fuel consumption will improve by 1.8 percent, a figure that may seem low, but over the life of a plane will save millions of dollars. With the new Scimitar winglet, which is currently being tested, United estimates a savings of a whopping $200 million per year. If the testing goes as planned, the airline’s 737 fleet will be upgraded in 2014. [Source]
Good example of a simple retrofit to existing systems for improved performance.

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How a Tesla Model S Electric Car is Made
via laughingsquid
This plant is amazing!
Metrology Instruments 101- The Wiggly Hook Thingy
Ever notice that the end of a tape measure has a hook that is loose? The reason for this is to allow for measuring in two different ways. First you can hook the tab end on the end of a board, for instance, and pull the tape to the point that you want to measure. This will extend the hook thingy away from the tape. Next, you can bump the end of the hook thingy against a wall to measure the width of a room, for example. What happens to your measurement if the thingy is not allowed to move inward? Your measurement will be off by the thickness of the hook thingy. So the reason that the hook thingy moves is to accommodate for the thickness of the hook thereby making your tape measuring device more accurate.
The way to get the best accuracy from a tape is to take the wiggly hook thingy out of the picture to reduce the possibility of error from a worn or bent hook. Simply position the start point of your measuring at the ten inch mark. Do this instead of the one inch mark because this way your numbers read from one to nine and you do not have to worry about subtracting one inch from your measurement. Pictured is one of the hardness tester anvils, used on a Rockwell hardness tester, available from Brystar Metrology Tools.
By Jeff Briley
Big wheel
“Molded staggered tooth gear, Mesta Machine Company, West Homestead, PA, 1913.”
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ExplorePAHistory.com
Needle playing a record | Victrola Coffee Roasters
Coloured scanning electron micrograph (SEM) of the needle (stylus) of a record player in a groove on a record. A record is used to store sound. It is produced by a machine with a head which vibrates in time to the sound being recorded. This cuts a groove in the record which varies according to the vibrations. A needle can then reproduce these vibrations as it runs along the groove and these, when amplified, produce the original sound.

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nothing-without-science:
High-speed photography of how the process of lighting a match happens. An extract from an episode of BBC programme - Chemistry: A Volatile History.
Imagination Run Wild
Caveman metrologist? Was there such a thing long ago and far away? As early man began using simple tools to defend himself and hunt for food, by trial and error, he would determine what length stick would work best for his spear and what shape spear tip would allow the best penetration into an animal's hide. I speculate that he probably used some form of measuring instrument to record the perfect spear length, say marks on a wall or a length of vine. If he lost his spear, he would refer to the measurement he recorded earlier, to make a new spear.
This spear would be very special to him and he would have it with him at all times. He might record the length of his largest speared fish by notching the shank of his spear so he could later brag to his caveman buddies. If our caveman was learning to build walls out of stone, he might use his spear as a metrology instrument for the layout. He could then help his caveman buddies build a wall just like his using his handy dandy measuring tool. Let's say the caveman from down the lane took a liking to our caveman's spear and wanted to make one just like it. He might pick up a short stick off up of the ground and use it to measure our guys spear. "Eight sticks in length", he might say to himself in his gruff jargon and off he would go to find a good stick that is eight short sticks long. All of this may seem a little silly but that is sort of how measuring things began, as I imagine it.
By Jeff Briley - Brystar Tools