poem_obvi_plutonium_rush_plutonium_rush_A=Radiation Poisoning

obvi_plutonium_rush=Plutonium Rush
obvi_plutonium_rush_plutonium_rush=Plutonium Rush

obvi_plutonium_rush_plutonium_rush_postcard=
		Learning things in this map is part of the experience. Please try to avoid spoiling things for others.

obvi_plutonium_rush_note_b=
		We were told these force fields the company has set up supposedly keep everything out, but they're not opaque. If I can see through them, light must still be able to pass through.{n}{n}
		Hypothesis: If something moves fast enough it can go through the force field before it can even respond.{n}{n}
		Experimentation with a particle accelerator and a smaller force field has confirmed this hypothesis.

obvi_plutonium_rush_note_c=
		Firing particles at a force field diagonally seems to have interesting properties. The force field doesn't necessarily reject the particle back to its entry point.{n}{n}
		Further testing lets us hypothesise force fields only consider whether the particle must have entered horizontally or vertically and displace the particle accordingly.

obvi_plutonium_rush_note_d=
		The warp lines between our workstations have a composition similar to that of the force fields. Combining multiple warp lines at different angles appears to make this connection more noticeable in behaviour.{n}{n}
		Travelling through multiple warp lines at different angles simultaneously when reaching an area not directly connected to the original area appears to reject the particle back in the direction of the first warp line it travelled through, as if it was a force field. An experiment with a particle bounce shows an unintuitive, yet expected result.

obvi_plutonium_rush_note_e=
		Someone (you know who you are) has been using a lot of very bright light to a point of disturbing others. I tried covering the passage to their workstation, but it appears that the intense light simply ignores it.{n}{n}
		Apparently there's something technical with light passing through a warp line and the curtains at once. Almost as if the curtains just didn't exist yet for the light passing them.{n}{n}
		A simple experiment seems to successfully replicate these results using light. We are currently waiting for access to the particle accelerator for a follow-up experiment.

obvi_plutonium_rush_note_f=
		I may have identified something interesting: Launching a particle close to a force field greatly increases its chances of passing through it as it can get further before any warp line or force field catches on. If you want something to get further, just get closer.{n}{n}
		After excitedly approaching my colleagues I have been told they considered this common sense. I'll keep it written down in case it ever turns out to be useful.

obvi_plutonium_rush_note_g=
		Wouldn't it be cool if humans could experience these weird phenomena themselves? Unfortunate how our movements are so limited.{n}{n}
		What if we could just dash at a high speed? Maybe we direct it into the ground with a jump for even more speed if a forward charge doesn't suffice. What about charging upwards and jumping with that boost?{n}{n}
		The ethics board doesn't seem to be as enthusiastic about it, but they can't tell me what to do with my free time and my own money.

obvi_plutonium_rush_note_h=
		Days without people complaining about diagonal particle launches: 0{n}{n}
		Diagonal movement actually appears very different on the smallest timescale. In reality a diagonal movement is actually a horizontal movement followed by a vertical one. This happens so fast nothing can monitor it but it can be confirmed through various tests. In everyday life this isn't important, as very few objects actually travel at a velocity where it becomes relevant.{n}{n}
		If you want something to actually travel according to the vertical component of its movement vector, make sure you account for the distance it will travel horizontally first.

obvi_plutonium_rush_note_i=
		After finally getting to play with the particle accelerator I found something interesting: Shooting a particle directly into a detector through a warp line doesn't seem to register it if it comes to a standstill. The particle isn't going through either.{n}{n}
		After further testing and discussion we have concluded that most likely, vertical traversal through a warp line only registers when any vertical movement occurs. A particle reflected to go perfectly horizontal before it gets registered by the warp line also bypasses the detector. If the particle afterwards gets some vertical momentum, by magnetic forces for example, it will get caught and actually get registered at the appropriate location.