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First Measurement of Distribution of Pressure Inside a Proton (phys.org)
Okian Warrior shares a report from Phys.Org: Inside every proton in every atom in the universe is a pressure cooker environment that surpasses the atom-crushing heart of a neutron star. That's according to the first measurement of a mechanical property of subatomic particles, the pressure distribution inside the proton, which was carried out by scientists at the Department of Energy's Thomas Jefferson National Accelerator Facility. The nuclear physicists found that the proton's building blocks, the quarks, are subjected to a pressure of 100 decillion Pascal (1035) near the center of a proton, which is about 10 times greater than the pressure in the heart of a neutron star. The result was recently published in the journal Nature.
Is Subnuclear fission a possibility?
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And where is there a safe space for those poor quarks?
(Also, BeauHD, you shmuck: It's 10^35, or write 10e35, not 1035).
100 decillion pascal!
All these geniuses put together can't figure out why WTC7 collapsed.... hmmm....
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In thought strong force refers to the force that binds the protons inside the necleus.... Do quarks even need a force holding them together? Like does opposite spin quarks repel each other?
gravity & goo holds our magnets & electricity composition in place.. cease fire stand down, without our conscious conscience spirit on board & functioning (in spite of our training to ignore it) we're just more psychotronic sludge, as evidenced by the greed fear ego based behaviours exhibited..
heavy
On a long enough timeline, the survival rate for everyone drops to zero.
1035 doesn't sound so bad. 10^35 on the other hand...
If you are in the Newport News, VA area on Saturday, the Jefferson Lab is having an open day from 9AM to 3PM. https://www.jlab.org/
Also the press release from the lab itself about the Proton pressure QUARKS FEEL THE PRESSURE IN THE PROTON
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Could someone please explain this? I always thought pressure was a more macroscopic concept, related to the force exerted by (many) bouncing particles on a wall, or similar. What is the meaning of pressure within a proton? And what is its meaning? Like density or "edges", I would think macroscopic concepts are no longer valid in that realm.
Turns out, 1035 is A LOT!
can we blow it up somehow? We could make a damn good bomb.
Pressure on normal scales is caused by molecules/atoms/whatever bouncing off others.
What's bouncing off these quarks to cause "pressure"?
Seems like it has to be some completely different process from normal pressure, so much so that comparing it to the pressure inside a neutron star is nonsensical.
Now if only we could cram two protons into a proton, we would have nuclear fusion solved!
on the seat of Tardchris's pants.
that will be 'only' 100 _Quintillion_ Pascal. Or a little less than a shaken box of soda.
https://en.wikipedia.org/wiki/Names_of_large_numbers#Usage_of_names_of_large_numbers
So is it pressure (something pushing them together, like it says) or attraction (something pulling them together)? Or something else completely different because they're quarks?
If the universe is someone's simulation -- does that mean the stars are just stuck pixels?
As a tidewater native, I'm really exited to see this quality of research coming out of Jefferson Lab. It's a great asset to the area.
You are wrong about quarks being 3D objects
Every single existing bit (with mass) has 3 dimensions. Any other number of dimensions is only possible in our imagination, not in the physical world.
Apropos of nothing, what are the dimensions of an electron?
In thought strong force refers to the force that binds the protons inside the necleus.... Do quarks even need a force holding them together? Like does opposite spin quarks repel each other?
The color force holds three quarks together in a proton or neutron. Protons have charge, so there's significant repulsive force among them inside the nucleus.
A quark inside a proton can be bound (by color) to the two other quarks in that proton, but it's also physically near the quarks of a neighboring proton. It can "look outside" it's own particle and see other nearby quarks, and feel the color force from those as well. That's what we call the strong force, and it keeps the nucleus together.
If heavy nucleii were composed completely of protons, the aggregate electromagnetic repulsion would overwhelm the strong force and the nucleus would fly apart. Adding a few neutrons to the mix allows the same sort of neighboring-color-attraction without the EM repulsion, and makes the nucleus stable.
"Wow, another day stuck in this darned nucleus, wondering if today will be the day we fall apart, not knowing what element I'll be part of next. Always worrying about whether the electrons out there really care about me or not. And what am I going to do if something takes an electron away from me--I mean us. I'll feel so empty. Yet there's this continuous pressure to perform, to keep it together. Keep hanging on, keep hanging on..."
Today science has announced that they have found a group of people even more retarded than APK. Theses individuals are the 9/11 truthers who have an even more difficult time grasping even the most basic facts. While APK has long been the gold standard for his inability to understand simple things and dismiss them when they contradict how he wishes the world to work he has nothing on the 9/11 truthers. While this group is more numerous than APK they thankfully are better behaved individuals. Before close examination of this group it was thought that only individuals could be more retarded than APK, for example the time cube guy, with the most retarded groups only being slightly less retarded than APK. These groups include but are not limited to: birthers, anti-vaxers, rabid trump supporters, rabid anti-trumpers, PETA. Because of these recent findings some of these groups should be reevaluated to see if they are correctly classified as being less retarded than APK.
Or, by asking a question similar to yours, how do you calculate the pressure on an electron? Which dimensions would you choose to calculate the required area? Or do you consider that you cannot apply pressure on electrons? Or that electrons don't have area? Please, illustrate me.
If the universe is computable (a strong requirement, since being "uncomputable" puts it outside of normal mathematics), then position must be quantized in some way. If position were a (mathematical) real number, then each position would require an infinite amount of information, and any interaction would be uncomputable.
If position is quantized, then you can have a particle that occupies 1 quantum point and nothing else. It would be similar to having a computer game on a finite 3d grid of points - at the macroscopic scale everything would appear to be 3 dimensional, but when you get to the quantum level you could have particles that occupy one quantized point and no more. At that scale, for a particle occupying one quantized point, the concepts of surface area and volume lose their meaning.
The universe is apparently quantized. Not in the simple way of the computer game mentioned above, but still quantized.
So far as anyone can determine, an electron is a point particle. It has no volume and no surface area.
I always knew I was under constant pressure, but this is ridiculous.
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Protons contain 3 quarks. Three particles cannot create âoepressureâ. This is either brainwashing or those scientists measured something else.
> which is about 10 times greater than the pressure in the heart of a neutron star
Superman should upgrade his Fortress of Solitude key to embarrass the Hulk even more.
(-1: Post disagrees with my already-settled worldview) is not a valid mod option.
So, it's common for protons to resist pressure greatly higher than that found in a neutron star's core. Doesn't 10x greater than a neutron star's core - how big of a neutron star? - reach into the realm of gravity high enough to trap light? Doesn't this mean that some objects we perceive as black holes aren't singularities on the inside, but that the same force that keeps protons from collapsing into singularities will work for a star? Hence, they'd be quark stars *and* they'd appear like black holes from the outside?
I bet there's probably a Minecraft mod that already incorporates this.
Neutron stars are, it turns out, pussies. Every one of my protons says so.
This begs the question though, what kind of pressure exists within a neutron, and is that pressure higher with the weight of a neutron star sitting on top of it?
For all the bravado I've just exhibited over the relative pressure inside my protons compared to that within a neutron star, I probably would not want to get into a fight with one though.
Our reign has gone on long enough. Indeed. Summon the meteors.
...is to change the laws of physics as we understand them!
I'm kidding, but only a little. Scientists understand that new scientific understanding is incredibly fruitful. Can you imagine if we could convert a quark to an antiquark? What if we could convert a proton to an antiproton, or an electron to an antielectron? It boggles the mind, especially if we could do it without massive energy inputs and do it at scale.