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| | ==Explanation== | | ==Explanation== |
| | + | {{incomplete|Created by a SIPHONIC WINDS - Please change this comment when editing this page. Do NOT delete this tag too soon.}} |
| | + | Cueball and Megan have a demonstration of a {{w|Siphon}}, by which the gravitational force on an upper reservoir of liquid and molecular cohesion move a liquid upward through a tube, traversing a higher peak to reach a lower exit. Randall has also mentioned siphons in his book, "how to," section "how to make a pool." |
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| − | [[Cueball]] and [[Megan]] have set up a simple experiment to test how a {{w|siphon}} works, using the gravitational force on a lower portion of liquid-filled tube, atmospheric pressure on the upper reservoir, and molecular cohesion within the liquid, to move a liquid upwards through a bit of tube at a higher gravitational potential. In short, the liquid passes over a higher peak to reach a lower exit. [[Randall]] has also mentioned siphons in [https://what-if.xkcd.com/143/ whatif 143] and in his book, "[[How To]]," section "How to Throw a Pool Party".
| + | Siphons are commonly used in modern society (e.g., American toilets are flushed by siphon action). |
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| − | Siphons are commonly used in modern society (e.g., most {{w|Flush_toilet|American residential toilets}} are flushed by siphon action). Siphons should not be confused with [[#Trivia|capillary action]]. | + | Siphons are separate from a similarly counterintuitive phenomenon of {{w|capillary action}}, where a liquid flows through narrow spaces, usually upwards (against gravity) in that a siphon can be of much larger diameter and capillary action can move liquid up an initially empty channel. |
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| − | Apparently, even though Cueball and Megan have set up the experiment correctly, the water no longer demonstrates a siphon by flowing from the upper bucket to the lower. Cueball observes in surprise that "it's true," that siphoning doesn't work anymore. Thus indicating that this is a very recent development, and Megan remarks that it was honestly weird that it ever worked, and muses over why we ever thought that was a normal thing. | + | Apparently, even though Cueball and Megan have probably set up the experiment correctly, the water no longer demonstrates a siphon by flowing from the upper bucket to the lower. Cueball observes in surprise that "it's true," meaning that this is a very recent development, and Megan remarks that it was honestly weird in retrospect that scientists had ever tried to rationalise this admittedly counterintuitive phenomenon in the first place. |
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| − | The punchline of the comic comes in the caption, which delivers a piece of ''Physics News'': "The 2023 update to the universe finally fixed the "siphon" bug." The joke here is that the entire complex and multifaceted system of {{w|physics}} in and of itself is treated as though it is simply the coded logic running the universe (or perhaps the sometimes unintentional result of various default configuration options like in a video game - see [[1620: Christmas Settings]]), and that siphoning (rather than being an interesting physical phenomenon worth studying) was nothing more than a bug in the Universe. It has now been fixed, somehow and for some reason, being considered a glitch and not the intended behavior. | + | The punchline of the comic is in the caption, which delivers a piece of physics news that the "2023 update to the universe" finally fixed this phenomenon, dubbed "the siphon bug". The joke here is that the entire complex and multifaceted system of {{w|physics}} in and of itself is treated as though it's simply the logic (or perhaps the [[1620: Christmas Settings|officially maintained configuration]]) to a video game, and that capillary action (rather than being an interesting physical phenomenon worth studying) was nothing more than a bug unintentionally created by the "devs" (whoever that may be). In reality, capillary action still very much exists in our universe,{{citation needed}} though {{w|simulation hypothesis|the idea that we live in a computer simulation}} is also prevalent in {{w|the matrix|our modern pop culture}}. |
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| − | In reality, siphons still {{w|siphon|very much exist}} in our universe. Siphons require filling beforehand to function, either by initially actively sucking liquid through or by first immersing the siphon tube in any compatible liquid then ensuring it retains its contents as it draped over the obstacle and each end positioned properly into the respective receptacle, so it is plausible to imagine skeptical people “proving” they do not function by refraining from providing the initial priming. However, the small amount of water in the bottom of the bucket near Megan indicates that there was at least some water in the tube, and that this just ran down on either side, leaving the tube empty and a bit of water in Megan's bucket and a bit more in Cueball's bucket. So they did set up the experiment correctly, but since the latest update siphons do not work anymore. Or as they state it, the universe now works correctly and the siphon bug has been corrected.
| + | The title text is a reference to [[2115: Plutonium]]. It expands on the joke surrounding the idea of an "Earth dev log" by referencing {{w|nuclear power}}, and how it's apparently another bug that some nuclear elements (notably {{w|uranium}} and {{w|plutonium}}, among others) can be and have been harnessed by humanity in order to generate virtually infinite amounts of energy, all while the elements themselves are simply sitting there in the core of some {{w|nuclear reactor}}. |
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| − | A siphon requires that the weight of the liquid column on the "higher" side of the channel peak not exceed atmospheric pressure, or else the liquid will split, leaving a {{w|Torricelli's_experiment|partial vacuum}}. The observed failure could be caused by several kinds of changes to the universe. If there was a significant decrease in the ratio between the pressure of Earth's atmosphere and the force of gravity, the siphon would stop working. Eventually, the water in the "lower" side of the tube would dribble out, letting air in, and the water in the "higher" side would also drain back into the reservoir. If the density of water increased enormously, the increased weight of the liquid column would lead to a similar failure. If the molecular cohesion of water decreased drastically and the flow rate of the siphon was slow, air could bubble into the "lower" end more quickly than the water was flowing through, and eventually the tube would empty. The siphon could also fail more mundanely if the water had a lot of gas dissolved in it under pressure (as with soda water), because the gas would come out of solution and collect at the highest point of the tube.
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| − | {{w|simulation hypothesis|The idea}} that we live in a computer simulation is also prevalent in our modern pop culture, most famously shown in {{w|The Matrix}} (See [[566: Matrix Revisited]]). | |
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| − | The title text is an additional note to the 2023 physics update stating that the update has: "Fixed a bug that caused some rocks to generate virtually infinite heat while just sitting there."
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| − | This is a reference to radioactive materials that keep emitting energy (heat) almost indefinitely (on a human timescale). This is mainly a reference to {{w|uranium}} and {{w|thorium}} and their decay chain.
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| − | This is similar to the comic [[2115: Plutonium]], because {{w|plutonium}} (though man-'made', during nucleosynthesis) is used to power spacecraft. In that comic the title text has the same idea that someone controls the universe: ''It's like someone briefly joined the team running the universe, introduced their idea for a cool mechanic, then left, and now everyone is stuck pretending that this wildly unbalanced dynamic makes sense.''
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| − | The entire comic is one of many where Randall muses over strange aspects of our universe, and wonders why we (people) ever think that it seems normal, the way the Universe works (or how humans work - see for instance [[1268: Alternate Universe]]).
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| | ==Transcript== | | ==Transcript== |
| − | :[Cueball is standing next to two buckets while Megan is looking on from the other side of the buckets. The left bucket is on a stool and is almost filled with water while the other is on the ground and has a very small amount of water in it. Cueball is holding an empty tube between the two buckets. The end to the left is deep into the water in the left bucket while the other end hangs into the empty bucket to the right.] | + | {{incomplete transcript|Do NOT delete this tag too soon.}} |
| | + | :[There are two jugs, the one on the left is on a stool and is filled with water, the other on the right is on the ground and has a small amount of water. Cueball standing on the left is holding a tube between the jugs, no water is flowing through it. Megan standing on the right is watching.] |
| | :Cueball: Wow, it's true—the water doesn't flow up the tube anymore. | | :Cueball: Wow, it's true—the water doesn't flow up the tube anymore. |
| | :Megan: Honestly, it's weird that it ever did. | | :Megan: Honestly, it's weird that it ever did. |
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| | :[Caption below the panel:] | | :[Caption below the panel:] |
| − | :Physics news: The 2023 update to the universe finally fixed the "Siphon" bug. | + | :Physics news: The 2023 update to the universe finally fixed the "siphon" bug. |
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| − | ==Trivia==
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| − | Siphons are separate from a similarly counter-intuitive phenomenon of {{w|capillary action}}, where a liquid flows through narrow spaces (even upwards, entirely against gravity) in that a siphon need not be of such small diameter. Capillary action will also move liquid into an initially empty channel, whilst a siphon must be 'primed', by filling the tube, in order to draw liquid over a high point to ultimately always drop down into a lower container. Capillary action is caused by surface tension and attractive forces between the liquid and the walls of the channel; the liquid level will rise until the weight of the column of liquid matches the attractive forces. Capillary action can lift liquid higher than the maximum height of the "higher" side of a siphon with the same liquid, if the attractive forces are strong enough.
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| | {{comic discussion}} | | {{comic discussion}} |
