Friday, September 21, 2012

Gallifreyan Galore

So, I recently learned how to write in Circular Gallifreyan, which, if you don't know, is a transliterated language from Doctor Who.

I've just been making some pretty things with it - quotes and drawings and such.  By the way, these were all created by hand - with a pencil, a compass, and lots of black pens and Sharpies.  No computer stuff here.
That's all.  Enjoy :)

 This one was my first ever large Gallifreyan project.  It says "The fault, dear Brutus, is not in our stars, but in ourselves, that we are underlings."  It's a quote from Shakespeare's play Julius Caesar and was used in John Green's book The Fault in Our Stars.

This is another quote from a John Green book, this time from Looking for Alaska.  It says "No one can catch the motherfucking fox."

This one was made in response to soulpancake's time-lapse art video on fear.  I tried to film the creation, but, having never done so before, failed miserably.  But here's the picture.  The Gallifreyan text says "This is fear" and it's supposed to represent my fear of losing myself.  Hence the maze (which is actually solvable...that was hard), the city, and snowflake letters.

I've been working on this one for a while.  As you can see, it's the mockingjay symbol from The Hunger Games.  The Gallifreyan says "May the odds be ever in your favor."  I really liked the way it turned out, and I'm pretty proud of this one.
I'm also hoping to make a time-lapse type video of its creation.  I'll post a link if I manage it.

UPDATE: Here's the link to the YouTube video of the creation of the mockingjay!

Tuesday, September 18, 2012

Gravity is cool!

So we were doing a lab in AP Physics today.  It involved two different masses hanging side by side from a pulley, and then letting it accelerate and timing how long it took, then calculating the acceleration.  That may not have made sense, but the point is, we got a percent error of about 27%, which is not very good.

So we started brainstorming what could possibly have caused this error.  It's not the mass or friction of the pulley, because that would skew the results in the other direction.  It was probably due to human error in timing the experiment, but our eventual conclusion is way cooler.

I came up with this.  See, all masses create a gravitational field.  The more massive an object, the greater the force exerted by its gravitational field on other masses.  That's why the Earth, which is very massive, can exert force on us when we are so far away from the core; whereas we don't feel inexplicably drawn to, say, a bowling ball.  (Though if you feel an inexplicable attraction to a bowling ball, I'm not judging you, don't worry.)

So therefore, the most massive member of our lab group must be exerting gravitational force on the masses in the experiment, and causing the results to be screwy (because when calculating our theoretical value, we only took account of the Earth's gravitational force.  Adding another force on the system would change the results).

Someone proposed measuring the masses of each group member and banishing the most massive member, but they were overruled.  Unfortunately, the period ended before we could try the experiment again, this time standing several meters away to prevent any gravitational interference.  Oh, well.

For those who don't do physics, let me clarify: this is entirely preposterous, because the amount of gravitational force caused by a human would be incredibly, incredibly small.  We can even calculate the force between, say, a 60 kg person and a 1 kg mass that are 1 meter apart.

F = GMm/r^2

Where G = 6.67300 × 10-11 m3 kg-1 s-2

So we plug in the two masses for M and m, and divide by 1 sqaured, which is still one, and get that the force exerted by the person on the mass is 4x10^-9 N.  Which is very very very small.  Negligible.

....I just realized that this was probably not at all interesting.  I apologize.  I promise, no more equations.  I just find this so COOL!

Well, actually, this concludes this post.  I was gonna say one more thing about our Science Olympiad team, but I just realized it involves equations.  I'm already gonna lose all my non-science/math readers, so I'm not going to push it.  Over and out, yo.

P.S. Your computer is probably pulling you towards it right now, with a force of somewhere around 3.2 x 10^-8 N.  Don't let it get you!

P.P.S. This is Bill Amend drawing for xkcd.  The second comic is related.  The others are also funny.