Why Fire is Cool - entry #4 - Ancient Energy Unleasher

When you heat a can of beans on a campfire, you are transforming the chemical energy contained in the firewood into thermal energy (heat).  As you are in your tent drifting off to sleep and the bean-induced-fart-chorus begins, you may ask yourself where the energy in that firewood came from.  As with most energy sources, the answer is that it came from the sun!  That firewood was once a tree that was merrily pursuing its life's purpose of fashioning itself a body out of carbon dioxide, water, and sunlight, in a process known as photosynthesis.

Photosynthesis requires an energy source (sunlight), therefore the products of photosynthesis (wood, etc) can be thought to contain that photosynthesized energy.  When you burn firewood, you are essentially running photosynthesis in reverse, releasing the energy from the sun that the tree went through so much trouble to absorb.

So, fire is cool because it allows us to unleash energy from the sun in small amounts, whenever we please, regardless of when that energy first arrived on earth.  In the case of firewood, that energy arrived anywhere from a few years to a few thousand years ago, depending on how long the tree had lived.

The Llangernyw Yew, a 4,000-5,000 year old tree.

This same concept applies to anything else we burn, even fossil fuels, which is where things get crazy.

Why Fire is Cool - entry #3 - Ash Ash Baby

When sitting around a campfire I almost always find myself silently staring, mesmerized by the smoldering ashes.  Once I snap out of it, instead of re-joining the conversation with my campfire pals  I often start taking pictures of the ashes.  Though it doesn't live up to the awesomeness of the moment, here is one (notice backlit marshmallow in foreground):

Before we discover the amazing things humans have done with ash, let's figure out what the hell ash is and why red-hot ashes look so awesome.  Once you burn away all of the combustible molecules in wood, the only things left behind (around 1% of the original unburned weight) are the non-combustible nutrients the tree used in order to stay alive.  Ash contains nutrients like calcium (~30% of the ash), potassium (~10% of the ash), and sodium ions (~1% of the ash) along with other metal and non-metal ions (reference).  It is partly these metal ions that make red-hot ashes look so awesome.  As you heat up metal ions in a fire, their electrons will gain energy then lose energy, in a process that results in the emission of light.  Each metal emits light of a specific wavelength, and if you take any substance containing metal ions and put it in a flame you will see this light (this is known as a flame test).

Why Fire is Cool - entry #2 - How Charcoal Changed the World

Entry #2 in my "why fire is cool" list starts with a brief introduction to charcoal and ends with humanity being changed forever.  It was around the time that I was waiting for the kebabs in the picture below to come off the grill that I learned what charcoal is, and that excited just about as many neurons in my brain as did eating the savory kebabs.

Why Fire is Cool - entry #1 - What are Flames Made Of?

If I were to start a "why fire is cool" list, it would probably reach a length to rival my "ultimate band name" list.  For the sake of brevity however, I will just share the 4 best entries on the fire list, beginning today with entry #1, a blazing introduction into the nature of fire.

Maybe you've had the experience of sitting around a campfire and being unable to peel your eyes away from the smoldering coals.  When this happens to me I have often found myself wondering what the hell IS fire?

Hot coals for staring at.

A question mark made of fire.

"Mythical Crysticals" or "Why Crystals are So Awesome"

This past summer, after finishing graduate school I went on a victory lap around the world and stopped by Berlin for some hot eats (döner kebab):

and cool treats (spaghetti eis):

I also stopped by the natural history museum (museum für naturkunde) to check out dinosaurs and stuff:

Solar Beat

File this post under my constant quest to rise above the constraints of my perception of time and space.  The people at whitevinyldesign.com made this awesome little animation thing of the eight "classical planets" plus the "pluton" (formerly known as a planet) pluto and the "dwarf planet" (formerly known as an asteroid) ceres orbiting around the sun.  You can speed them up and slow them down and listen to their 10 unique tones.  I seriously spaced out for 10 solid minutes while watching this thing, I encourage you to do the same.

via whitevinyldesign.com via Krulwich wonders

Isn't it cool how the innermost planets move soooooooo much faster than the outermost planets?  Makes me think of how a penny circles faster and faster around the central axis of one of those spiral wishing wells as it gets closer to the center.  Conceptually identical.

The Rise and Fall of William "Aluminum" Frishmuth

A man named William Frishmuth, a close acquaintance of Abraham Lincoln, was once the only person in the united states capable of producing the metal aluminum.  Perhaps the height of his metallic prestige came when Frishmuth was commissioned in 1884 to forge an aluminum pyramid to be placed on top of the Washington monument.  At the time, it was the largest chunk of pure aluminum ever cast.  Here is what it looks like:

But why aluminum?  Why would the US government honor its first leader by making this pyramid out of the metal in which I wrap my peanut butter and jelly sandwiches?  The answer