#Science Quotable: Rachel Maddow – Be a Scientist!! #BeAScientist #scienceissocool

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Turns out if you want to find out where the water is on Earth, gravity can help. Specifically, if you want to find out where water is below the Earth’s surface, satellites can use the force of gravity to figure that out… from space. Which is SO COOL.

If you don’t know what you want to be when you grow up, be a scientist. this stuff is so cool.

-Rachel Maddow introducing new studies about NASA research about water aquifers.

Check out the whole segment from the Rachel Maddow Show – New research sounds alarm on global water supply. It contains tons of other awesome science!

Jay Famiglietti, senior water scientist at the NASA Jet Propulsion Laboratory, talks with Rachel Maddow about new research using satellites to detect underground water around the world and finding startling deficiencies in the global water supply.

Cold weather experiments to TRY AT HOME! #winter #coopedupinside

Bored? Too cold to go out? Enjoy science? Try some of these sweet experiments in the comfort of your own home! From PRI, here are six science experiments for cold winter days that you should definitely try at home:

The straw rocket blaster

You need string, some tape, a drinking straw, and a balloon. Take one end of the string and tie it to something solid and fixed, like a chair or a door handle. Then thread the other end of the string through your straw and tie it to another chair or handle at least 10 feet away. Make sure the string is taut. Now blow up the balloon, pinching the opening closed with your finger. Tape the straw to the balloon and slide the blown-up balloon along the string until the opening of the balloon is at one end and the rounded part faces the long line of string.

When you let the air out of the ballon, it will shoot like a rocket along the line of string to the other end. “Kids just love this!” Adamick says. “There are so many variables you can do. You can tie the string up a staircase to make it go higher; you can tie it to a tree limb outside, you can tape weights to the balloon to make your rocket carry a pay load. It’s just really a fascinating thing.”

The lemon-powered clock

For this, you need galvanized nails, a couple of copper pennies, some copper wire, and a juicy lemon. Stick a nail into one side of the lemon and a copper penny into the opposite side (you may need to cut a small slit into the peel first). These are now natural battery terminals.

Why? Galvanized nails are covered with zinc. The zinc atoms are drawn toward the copper, creating an electron flow through the lemon from the nail to the penny. Now tie copper wire to the penny and another to the nail, leaving the ends free. Attach the ends of these wires to the correct terminals of a small battery-powered clock and you may have enough voltage to power it. If not, use two or more lemons, putting a nail in one and a penny in the other, connected with additional copper wire. This will increase the voltage. In fact, the more lemons you link together the more power you will get.

For supervised science fun, nothing beats dry ice

It’s readily available at most grocery stores, but in some areas you must be at least 18 years old to purchase it. The most commonly known thing to try is to simply drop a small piece of dry ice into a small beaker or glass of water. This is what you usually see in movies when they create a “spooky” broth or formula. For added fun, you can add dye or bubbles to the water.

If you can get ahold of old film canisters, try putting a little piece of dry ice inside one with some water. Eventually, the mixture will pop the top off.

Another variation: Put warm water and dishwashing liquid in a Pryex bowl. Get a small cloth, wet it and use the cloth to wet the lip of the bowl. Put in the dry ice and then take your wet soapy cloth and scrape it across the bowl, which should create a soapy film. You should get a really large bubble that fills with smoke.

The old standby: the baking soda and vinegar volcano

People usually put the baking soda in first and then pour vinegar on it to make an explosion. But you can also do it this way: first pour the vinegar into a tall glass or beaker, then wrap the baking soda in toilet paper, put a string around it and drop it into the beaker. Now you’ve got a little extra time before the vinegar eats away at the toilet paper and gets the baking soda wet. It’s kind of a timed explosion of your volcano.

Snowflake fun

Take a piece of black construction paper or velvet outside, catch some snowflakes and look at them with a magnifying glass. You will really be able to see the crystals.

If you have a microscope slide, bring it outside, keeping it under cover, and spray it with hairspray. Catch a snowflake on it and bring the slide back under cover. Then let it sit in a cold, protected place, like a garage. You will be able to preserve the shadow of that snowflake forever, because it will make an impression in the hairspray. As the hairspray dries and the water evaporates, you get an “echo” of the snowflake.

Frozen bubbles are awesome!

In cold weather, bubbles don’t burst, they freeze, and bounce. You can actually hear them “clink” on the ground. The bubbles are a several-molecule thin layer of water, and they freeze instantly in the cold.

”Ping ping ping ping ping!”

THEY EVOLVE – Check out this awesome GIF from ‘Do you have an appointment?’ #science

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“They Evolve” – from Do you have an appointment tumblr! Check them out for a bunch of awesome GIFs!!

New super small and super strong thread resembles the structure of diamonds! #science #chemistry

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Nick Statt reports at CNET on a new study describing the creation of diamond-like carbon nano threads. The study is published in Nature Materials by a group at Penn State.

Called a “diamond nanothread,” the ultra-thin material has a never-before-seen structure resembling the hexagonal rings of bonded carbon atoms that make up diamonds, the hardest known natural mineral on Earth. That makes these nanothreads potentially stronger and more resilient than the most advanced carbon nanotubes, which are similar super-durable and super-light structures composed of rolled up, one atom-thick sheets of carbon called graphene.

The new super-strong material, once it is better characterized, could have many uses. The authors of the study hope to make science-fiction a reality with their new threads.

“One of our wildest dreams for the nanomaterials we are developing is that they could be used to make the super-strong, lightweight cables that would make possible the construction of a ‘space elevator‘ which so far has existed only as a science-fiction idea,” Badding said.

Not the first place I would think to use a super strong cable, but to each their own.

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