In the second station, there were two water bottles, labeled as A and B. If you shook both of them, and opened there caps, the result will show that bottle A didn't do anything, except maybe have some little bubbles, but B's water was rising so much, that if someone didn't close the cap, it could have leaked. If you squeezed both of them, bottle A would press easily, whereas B would be harder to compress. This showed that A had low dissolved gases, and less pressure in it, classifying it as mafic magma. Bottle B had high dissolved gases, and lots of pressure, matching it's characteristics to felsic magma. (this answer is very long, but to show my understanding I did this)

Triangulation show us the location of the epicenter. The epicenter is found where all three circles meet. Right below the epicenter is the focus, which shows us where the earthquake originated from.

you can turn metamorphic rock into igneous by using weathering or some people even say uplift. you can turn metamorphic rock into magma by melting it.

I would personally start with a chocolate that's already in its wrapper. Once you take it out, you'll notice that it's solid. That would represent an igneous rock. The next step would be to weather it, so it turns into sediment. To represent weathering, just simply break it. That's right, break it into pieces. Once you have sediment, you can rode into a piece of paper, and deposit all the chocolate sediments by folding the paper. Now, to turn it into sedimentary rock, you need to go through a process which is called lithification. This is where heat and pressure cause the chocolate to harden a bit, and become sedimentary rock. This next step is kind of similar to lithification. It is called metamorphism, to turn the rock into metamorphic. This is when you need intense heat and pressure, which causes the rock to join the other pieces, and possibly change color, if there are two different types. The next step is turning the rock into magma. The rock melts in order for that to be possible. So! What are you waiting for! Eat that delicious chocolate, but keep in mind that there's a purpose to it. It's representing the rock melting into magma. Now the final step. You need to show crystallization, by hardening the melted chocolate, into igneous, so the whole cycle can start again. In my opinion, in won't work as gum, where you can just throw it, and it will harden. In this situation, as much as it sounds gross, you can see the result when you are in the bathroom :)

magma A was mafic, because it had low batter, representing low level of silica, and it spread out, showing that it was a shield cone. It's bubbles came very early, and that too a lot of it, showing that it's dissolved gases escaped easily. Magma B was felsic, because it had more batter, making it have high levels of silicon, and making it more viscous than magma A. The pancake was all scrunched up, and that resembles a composite cone. It's bubbles took long to come out, and that too not that many.