Weird Facts of Physics: 1000s of Tons in a Teaspoon

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Liquid helium exhibits unusual behavior by flowing out of its container when lifted and returning when set down. A teaspoon of matter from a black hole could weigh thousands of tons on Earth due to extreme gravitational compression, although some argue this should refer to neutron star matter instead. Water poured on Mars is theorized to both freeze and boil simultaneously due to the planet's low atmospheric pressure, though this claim remains debated. Discussions also touched on the potential for human-powered flight on the Moon and the concept of lunar resorts. The conversation highlighted the complexities of physics and the intriguing nature of cosmic phenomena.
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I was just woundering, what are some of the weirdest facts you heard or read about physics in general?

Weirdest thing i read about was about liquid Helium and how it flows out of its container when lifted but flows back in when set back down. And the other thing is that one teaspoon of matter from a black hole would weigh 1000s of tons on earth, probably because it was compressed in that strong gravitational field.
 
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I heard once that if you took a bottle of water to Mars and poured it out, it would both freeze and boil and the same time!
(don't know if that's 100% true or not, but I found it pretty fascinating).
 
zynko said:
And the other thing is that one teaspoon of matter from a black hole would weigh 1000s of tons on earth, probably because it was compressed in that strong gravitational field.
Wouldn't that be "neutron star" instead of black hole? Because the black hole is a star infinitely small, you can put an infinity of black holes in a tea spoon. That'd add up to \infty tons on Earth :smile:.


Math Is Hard said:
I heard once that if you took a bottle of water to Mars and poured it out, it would both freeze and boil and the same time!
(don't know if that's 100% true or not, but I found it pretty fascinating).
If someone could comment on that, that'd be great!
 
Thats bizzare. The only thing i can think of is instead of heat making it boil, a vacuum does it. Maybe as it freezes in the cold temp, the vacuum sucks any gas out of the water (whitch is H and O, and those make up water in the whole).

P.S.

For any teens such as myself out there, that's a good demo if you make a science project concerning Mars. Us a vacuum pump (made with pyrex glass) and place it in a really cold, clear container or somthing. Then pour water in it and quickly put the top on and start pumping out the air. Thanks Math is Hard. (yout going to have to give math is hard his/her credit :smile: )
 
wow. \infty black holes in a given space witch has \infty weight. That's more interesting then a teaspoon of neutron star matter.
 
One thing that space [lunar] hotel planners have hit upon: On the moon, human powered, winged flight is possible. We could fly like birds in a large, enclosed stadium.

Also, it is possible to run and jump off of at least one of the moons of Mars. You can leap into orbit.
 
Ivan,

You'd have some trouble using winged flight on the moon, which has no atmosphere.

zynko,

While general relativity predicts black holes have a singularity of infinite density inside, the whole story is yet to be concluded. Most likely, whatever theory succeeds general relativity and unifies it with quantum mechanics (string theory, m-theory, loop quantum gravity, etc.) will not predict a singularity. The density of a black hole is certainly very high, but probably not infinite.

- Warren
 
"in a large, enclosed stadium."

I checked but I don't seem to have the link. At least one Japanese Hotel chain is looking seriously at the idea of a lunar playground and resort for the extremely wealthy.
 
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zynko said:
wow. \infty black holes in a given space witch has \infty weight. That's more interesting then a teaspoon of neutron star matter.


I would think that if you had any black hole matter even in the vicinity of earth, it would suck everything in. If this is at all possible, which I don't think it is.
 
  • #10
If a black hole were to weigh an infinity tons, then it would suck in the whole universe in on itself. chroot is right, it is improper to think that infinity is a black holes dencity. The dencity is certanly high, but not infinity.
 
  • #11
mlip said:
I would think that if you had any black hole matter even in the vicinity of earth, it would suck everything in. If this is at all possible, which I don't think it is.

it depends on the amount of matter you brought to the earth. If it was a significant chunk on a black hole, it would just form another black hole and suck the Earth and the solar system into it, but if the amount of matter from a black hole were to be brought, and the radius of material did not satisfy the Schwarzschild radius: R_s = \frac {2GM}{c^2}, then the matter would just act as a dense cellestial body.
 
  • #12
Ivan Seeking said:
"in a large, enclosed stadium."

I checked but I don't seem to have the link. At least one Japanese Hotel chain is looking seriously at the idea of a lunar playground and resort for the extremely wealthy.


This is the only reason I can think of for returning to the moon. The possibilities boggle the imagination... Do you suppose that it will ever be know who was the first couple to ingage in low gravity ... , this is a family fourm so I'll let you all fill in the blank.
 
  • #13
Integral said:
This is the only reason I can think of for returning to the moon. The possibilities boggle the imagination... Do you suppose that it will ever be know who was the first couple to ingage in low gravity ... , this is a family fourm so I'll let you all fill in the blank.

Just for safety reasons, I'd advise them to stick close together..
 
  • #14
There was a husband and wife team that went up on the shuttle. Many winks and nods were reported.


Edit: I must say, about a hundred jokes about the Russians and the space station come to mind, but that wouldn't be nice.

I will only say this, Vodka, song, and 12 months in space. :biggrin:
 
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  • #15
All the fuel in the world could only sustain the Sun for a few days.
1 cm² of he Sun's surface shines with the birghtness of 232,500 candles.
Saturn would float in water (if there was a large enough bucket).

Don't know how Physics like they are for you but they are fast and at my finger tips.

The Bob (2004 ©)
 
  • #17
I find Sonoluminescence kind of strange, but interesting. Ultrasonic vibrations in a liquid at just the right frequency actually makes light. They say that the heat created during cavitation is actually hotter than the surface of the sun.

On another strange note, anyone have comments about the Hutchison Effect?
 
  • #18
The Bob said:
I'd be careful with that one, The Bob:
skygaze.com said:
According to the Theory of Relativity, the mass of an object increases with its velocity. In nonscientific terms, this means that things get bigger as they move faster. The process has been demonstrated in laboratories. In several experiments, objects accelerated to 86 percent of the speed of light have doubled in weight. The theory also postulates the rather incomprehensible notion that given enough speed, an object will become as large as the universe itself.
:rolleyes: Looks like the author should have taken my "Misconceptions of Relativity" quiz.

- Warren
 
  • #19
I've never seen someone confuse mass, weight and volume so much.
 
  • #20
I am totally confused now, but it doesn't matter, because I was totally confused before! :smile:
 
  • #22
A pipe 2 feet in diameter will allow four times more fluid to pass through it than a pipe 1 foot in diameter-the Volume of a pipe varies as the square of its diameter.

How does this qualify as an "Interesting Fact" ? The first statament is quite poorly worded, and by the normal interpretation (that it is referring to flow rates), would be incorrect. The second one is obvious to anyone in high-school, and has nothing to do with Physics/Chemistry.
 
  • #23
A thing I find interesting is that up to half the water in the ocean might come from comets (Robert Kunzig - "Mapping the Deep").
 
  • #24
Here is an interesting fact that caused me no end of grief: The resonant frequency of the wiring in buildings tends to be about 100 KHZ.
 
  • #25
Ivan Seeking said:
Here is an interesting fact that caused me no end of grief: The resonant frequency of the wiring in buildings tends to be about 100 KHZ.

That can't be true ! Are you certain about this ??
 
  • #26
Is there such thing as a Hutchison Effect? Cause i am planning to build a tesla coil and i want to get this straight. Did that guy exagerate or is there somthing real to it or is the Hutchison Effect totally different from what that essay said?

Your right Gonzolo, that was the only paragraph i have ever read with such missuse of the words mass, volume, and weight. That guy has to be on Dimethyltriptamine or somthing.
 
  • #27
Gokul43201 said:
That can't be true ! Are you certain about this ??

I have it on very good authority. I learned this while taking a class on industrial harmonic distortion [in the power lines] that was given by an expert in the field.

Edit: At one time I had designed a PWM circuit with an ~101 KHz switching frequency. I can tell you that my observations are completely consistent with the afore mentioned claim. It seemed that any radiated energy at all produced an inordinate amount of resonance in the surroundings. I later realized that I was doing this with only fraction of the energy radiated, as compared to other switching circuits running at ~20KHz.

EDIT: I assume for the same reasons that cause your surprise, I never suspected or realized the real problem until I took the harmonics class years later. The up side was that I did learn a lot about snubber circuits as a result of the resonance issues. Really I didn't have any latitude to change the switching frequency but when I think of all the trouble this caused...I don't know if I should laugh or cry. :mad:
 
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  • #28
zynko said:
Is there such thing as a Hutchison Effect? Cause i am planning to build a tesla coil and i want to get this straight. Did that guy exagerate or is there somthing real to it or is the Hutchison Effect totally different from what that essay said?


It is complete nonsense. No one has ever reproduced his results. Nor can he reproduce them in front of credible witnesses.
 
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  • #29
What I find mind-boggling and unable to grasp is the extreme smallness of atoms and the extreme vastness of the universe. I work with these concepts and numbers all the time, but it's hard to get a feel for it.
Take a glass of water. It has about 3\times 10^{25} molecules. I can hardly grasp the vastness of this number. If this glass of water were mixed throughout all the oceans of the world, then a glass of water, drawn anywhere on earth, would contain many molecules that were contained in the first glass. :eek:
 
  • #30
chroot said:
I'd be careful with that one, The Bob

It was a quick search. :rolleyes:

The Bob (2004 ©)
 
  • #31
J.J. thompson got a nobel prize for proving the electron a particle, and then his son wins one for proving it a wave
wierd coincidence
 
  • #32
Try dropping a round magnet down through a square piece of aluminum tubing. You can watch it slowly, and I do mean slowly, go round and round as it goes down and down. For a two foot length it takes 8-10 seconds to drop from the top to the bottom.
 
  • #33
Math Is Hard said:
I heard once that if you took a bottle of water to Mars and poured it out, it would both freeze and boil and the same time!
(don't know if that's 100% true or not, but I found it pretty fascinating).
I'm not sure whether it's precisely true either, but it's very superficially plausible. Boiling temperature depends on pressure and the Martian atmosphere is extremely thin and thus has very low pressure. Freezing temperature also depends on pressure, but, at least in the range between the atmospheric pressures of Earth and Mars, I think it is usually (always?) a very small change compared to boiling temperature. IIRC, temperatures on Mars never reach the 0 C, though I think they do reach -20 C or so (somebody correct me here if I'm way off). One of the Martian polar ice caps is supposed to be mostly dry (CO2) ice.

Anyway, in order to figure out what would really happen to water on Mars you'd have to know the temperature and pressure, what the equilibrium state of water is under those conditions, and some probably basic stuff about vapor pressure and such (that I haven't thought about recently enough to remember exactly how it works :wink: ).
 
  • #34
From website said:
Venus is the only planet that rotates clockwise.

That just made me laugh, because if you looked at it from the other side it would be rotating counter-clockwise. In fact, come to think of it, are there any planets not rotating in the same direction they go around the sun? (As in, the sun would never set, the north or south of the planet faces the sun)
 
  • #35
You laughed too soon. Direction of rotation in the solar system is always stated relative to one side, which can be established by reference to the stars, specifically Polaris. This selected side is called "above".
 
  • #36
selfAdjoint said:
You laughed too soon. Direction of rotation in the solar system is always stated relative to one side, which can be established by reference to the stars, specifically Polaris. This selected side is called "above".

My point was that it's a very arbitrary conclusion. It would make more sense to say only one planet is rotating in the direction opposite of ours. A similar example is that I've always tried to hold in mind that North is NOT up. North just happens to be what we define as the top of our planet. There's no reason why south isn't just as good a "top". (or... is there?)

Also, do you know what the inclinations of the planets' rotation is relative to their orbits? Is there some standard? Are most planets rotating around the sun on a certain plane? (See: any picture of the solar system in textbooks)

These are all things I've wondered about...
 
  • #37
Any good encyclopedia will have all the data you want, Alkatran. www.wikipedia.org has all of it, for example.

- Warren
 
  • #38
For those who are far-sighted, in a pinch, any pinhole can act as a lens - including the little gap formed in a tightly curled index finger. This works for the same reason that a pinhole camera does. I had a professor who could only see to enter his locker combination this way when he returned from his jogging. His glasses were in the locker.

In fact, Integral, this was Dr. Fontana. He pointed this out one day before class.
 
  • #39
In Relativistic Electrodynamics, when one calculates the electric field vector of a negative charge q at time T-t, that moves with a constant velocity v as seen by P at time T, we find that the electric field vector points exactly to where the charge q will be at time T, in spite of the delayed propogation of the field from q. In other words, the vector points to where the charge really is at that moment, wrt P, in spite of the fact that what we see at P, at time T, was from q at time T-t. There is no immediate and obvious reason why this must be true.

Why must the Electric field vector point to where the charge really is at the moment that the field is measured? At first this seems to be an amazing coincidence that simply is true! However, we can create problems where, were this not true, we would find violations of the conservation laws. I believe this is demonstrated by considering a charge moving in a high velocity orbit around a strongly positively charged mass. I'm not sure what happens to our constant velocity demand here.
 
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  • #40
plover said:
I'm not sure whether it's precisely true either, but it's very superficially plausible.

Thanks for weighing on that, plover. I picked up this tidbit from a planetarium show about a year ago and I didn't trust my memory to be accurate. But yes, he said the same thing you said about how the extremely low atmospheric pressure would result in a very low boiling point. He compared it to how water comes to a boil quicker when you're at a higher altitude, like up in the mountains.
Well, maybe our grandkids will one day settle this once and for all, huh? :biggrin:
 
  • #41
More odd physics things.

I consider this a fun fact: you could condense some interstellar molecular clouds into REALLY big martinis (sans olive or vermuth). (Ok, it might be a little toxic)

Mirrors would not work without quantum mechanics (assuming you could get light to work without QM).

Black holes could be considered boring. If you know the mass of a non rotating black hole, you can calculate almost all of its other attributes.

The state of a particle can be "coupled" to the state of another particle on the other side of the observable universe.

Einstein did not win his nobel prize for relativity.

There is a smallest possible unit of time, and we actually know how long it lasts.

Einstein's biggest mistake was not a mistake.

Lithium Beryllium Nitride is the only salt where the small ions will fit in the holes left by a close packed lattice of the larger ions. (I am considering lithium nitride and beryllium nitride to be degenerate cases of Lithium Beryllium nitride).

Photons take many centuries to work their way out from the center of the sun.

Diffraction gratings - nuff said.

When considering fission and fusion reactions, iron is by far the most stable element (lowest energy) but very very little of the universe made of iron.

Universes have a lot of similarities to black holes.

Some areas of math have zero application to any physical phenomena.

Some areas of math had zero application to any physical phenomena until a few bridges fell down.

:devil: :smile:
Extremely bright people, capable of understanding extremely complex subjects can be incapable understanding what situations require consideration of anthropomorphic principles.
 
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  • #42
In any solution to a physical problem that yields a complex solution, sometimes the imaginary part of a complex number has physical meaning, and sometimes it doesn't. Though the reasons for this are usually clear, this inconsistancy has always bothered me. I have often wondered if we might be missing something; somehow.
 
  • #43
I remember years ago when I first read the definition of a singularity: "a point with infinite density and which takes 0 space".

Im not physicist, not even smart considered, but I honestly think that is completely impossible for our brain to "understand" such singularity concept.
Our brain algorithyms and structure do not allow us to imagine that.

Not even the vacuum AFAIK takes 0 space! :confused:

Im not sure if I have expressed my idea properly... :blush:
 
  • #44
A weird thing about hadrons (common subatomic particles such as the protons and neutrons making the nucleus of every atom) is that only a very very very small part of their mass is due to its constituent quarks. For example, a proton (made of 3 quarks uud) has much more mass than the sum of the masses of its quarks:

The mass of the 3 quarks is 0,003 + 0,003 + 0,006, yet the mass of the complete proton is 0,938 !

Most of the mass we observe comes from its kinetic and potential energy. These energies are converted into the mass of the hadron as described by Einstein's equation that relates energy and mass, E = mc2.
 
  • #45
I'm thinking of another weird fact about the subatomic world, but I can't fully explain the details, I would like someone to say more about it:

The protons and neutrons making the nucleus of every atom, due to its confinement in such a small region of space, vibrate moving at incredibly high speeds, a substantial % of the speed of light.
As dictated by relativity theory, at such high velocities the rate of passage of time is much slower than it is for us.

So it's kind of paradoxical that we as a macroscopic chunk of matter age at our usual rate, while the particles we are made of are aging at a much slower rate ...

Could someone confirm, in our average lifespan of 70 years, how many years have passed to the protons and neutrons we are made of?
 
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  • #46
People put higher octane rating fuel in their car to prevent knocking, but true octane actually increases knocking (octane has an octane rating of -20). :-p
 
  • #47
Math Is Hard said:
I heard once that if you took a bottle of water to Mars and poured it out, it would both freeze and boil and the same time!
(don't know if that's 100% true or not, but I found it pretty fascinating).

Hmm, That could happen.

BUT, you must define BOIL first. Boiling is not 100 degrees, the boiling point at THIS ALTITUDE is.

When water is heated (outside in the garden for instance), air dissolved in the liquid begins to escape into the atmosphere as steam (you don't necessarily see this usually). The temperature at which it boils depends on the pressure of the atmosphere. This is why pressure cookers cook food faster. They decrease the pressure allowing the boiling point to increase. Once this is achieved, a higher temperature can be achieved.

When water BOILS, air is being dissolved into the atmosphere very quickly, this is seen as bubbles allover the place, and can be heard as splashing water. So water can freeze and "boil" at the same time. (or be 10 degrees e.c.t)
 
  • #48
Galileo said:
What I find mind-boggling and unable to grasp is the extreme smallness of atoms and the extreme vastness of the universe. I work with these concepts and numbers all the time, but it's hard to get a feel for it.
Take a glass of water. It has about 3\times 10^{25} molecules. I can hardly grasp the vastness of this number. If this glass of water were mixed throughout all the oceans of the world, then a glass of water, drawn anywhere on earth, would contain many molecules that were contained in the first glass. :eek:

The all of the freshwater in the world (3% of the total amount of water) has been through an animal... Yuck

Another interesting thing I heard is that if you put a bottle of water in the freezer and take it out before it freezes, if its cold enough when you hit it with something it freezes. Or atleast the outer layer does.
 
  • #49
Gerinski said:
I'm thinking of another weird fact about the subatomic world, but I can't fully explain the details, I would like someone to say more about it:

The protons and neutrons making the nucleus of every atom, due to its confinement in such a small region of space, vibrate moving at incredibly high speeds, a substantial % of the speed of light.
As dictated by relativity theory, at such high velocities the rate of passage of time is much slower than it is for us.

So it's kind of paradoxical that we as a macroscopic chunk of matter age at our usual rate, while the particles we are made of are aging at a much slower rate ...

Could someone confirm, in our average lifespan of 70 years, how many years have passed to the protons and neutrons we are made of?

Because time slows down when you approach the speed of light, photons that were created in or just after the big bang are 0 years old where as the universe is 13.7 billion years old. (Many of the original photons have probably been absorbed and re emitted.)
 
  • #50
Yeah, I don't think you could get the spoon out of the black hole to see how much it weighs anyway! LOL
 
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