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John Prytz (John Prytz)
Some Bits & Pieces That Are Out Of This World

Sometimes you have a new thought, an idea, or eureka moment, but it’s not gutsy enough to expand into a reasonable length article or essay. So, here’s a potpourri of thoughts too good not to record, but with not enough meat available to flesh out.

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* Orion’s Belt: It consists of the three bright stars Alnitak, Alnilam and Mintake The stars are more or less evenly spaced in a straight line, and so can be visualized as a belt. For some mysterious reason, several archaeological sites exhibit or mirror the positions of the trilogy of stars that make up the Belt of Orion. The most famous is the trilogy of those massive ancient Egyptian pyramids on the Giza plateau. The second is seen at Teotihuacán’s central pyramid complex in Mexico. The third is a trilogy of Hopi Mesas in Arizona. Okay, Orion’s Belt, that trilogy of stars, is fairly prominent in the night sky, but then too so is a lot of other star patterns. What makes these special to our ancient ancestors? A big deal of this is made by ‘ancient astronaut’ theorists. Somehow that trilogy of stars must be special, like perhaps home turf to ET. Alas, that doesn’t seem all that plausible. Alnitak (Zeta Orionis), Alnilam (Epsilon Orionis) and Mintake (Delta Orionis) are very bright stars (to the naked eye), but they are also very, very far away. That alone suggests that they are very un-Sun like. Alnitak is 736 light-years away and 100,000 times our Sun’s luminosity; Alnilam is 1340 light-years distant and 375,000 times as luminous as our Sun; and Mintake is 915 light-years away as the crow flies and is a whopping 900,000 times the Sun’s luminosity. Mintaka is also a double star system. Translated, the trio of stars that make up Orion’s Belt don’t seem to be likely candidates for extraterrestrials that would come a-calling as ‘ancient astronauts’. I very much doubt SETI scientists would target these stars as likely candidates to point their radio telescopes at.

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* There’s nothing too controversial about the idea that other universes in a Multiverse could have differing laws, relationships and principles of physics than our own. It’s one way of explaining why our Universe is a Goldilocks Universe. If you have billions and billions of universes each with a unique or differing set of laws, relationships and principles of physics, well probability suggests that one universe should just right for life – a Goldilocks Universe. Since we can only exist inside a Goldilocks Universe, well that explains that. But what if the laws, relationships and principles of physics in our Universe changed over time, or over space, or both! Then it’s probably time to turn out the lights, shut and lock the lab door and go home. It’s time to find a new career. But amazingly, there is (controversial) evidence that that is just that. Physical constants aren’t.

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* If whatever powers-that-be are simulating our universe, then they could be simulating others as well – a simulated Multiverse! And each and every simulated universe of that Multiverse could have simulated parallel universes. That’s a simulated Megaverse!

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* One of the 64,000 $64,000 questions: Can you pour stuff down a Black Hole indefinitely, or does the Black Hole have a finite capacity and ultimately or eventually will have to spew stuff out the ‘other side’ (i.e. – producing a White Hole) as you keep pouring in more and more and more? I’d wager the conservation relationships and principles of physics and chemistry hold sway here. What goes in ultimately comes out. That doesn’t mean there’s not a temporary holding vessel. Or, in more human terms, you fill what’s empty; you empty what’s full, but in-between those two there’s storage in the stomach and the intestines; the lungs and the bladder.

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* What lies at the heart of a Black Hole? The traditional answer is a ‘singularity’ – a point of (near) infinite density and (close to) zero volume, matter crushed down to the final, ultimate limit – or maybe not.

Start with a hunk of matter. Keep on keeping on adding more and more and more matter (mass) to it. Your original hunk grows larger, ever denser; its gravity swells in proportion. Finally it’s just a fraction away from achieving Black Hole status – meaning its gravity is so strong not even light can escape from its grasp.

So you are a thimbleful of salt away from crossing the not-quite-yet a Black Hole to an actual Black Hole boundary. You can (barely) still see your now super-sized hunk of stuff. Now toss in that final thimbleful of stuff onto the hunk. No light now reaches you – you’ve crossed the threshold or boundary and have got a Black Hole. But do you doubt that lurking on the other side of the not-quite-yet a Black Hole to an actual Black Hole boundary, though unseen, you still have that super-sized hunk of stuff, not a singularity, but a really real solid 3-D hunk of stuff? Or, in other words, if the escape velocity of your hunk is 185,999 miles per second, no Black Hole and no singularity, but if it climbs to 186,001 miles per second you have a Black Hole and your hunk morphs into a singularity? A two mile a second difference makes that much difference? I don’t think so.

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* You are all no doubt well aware of the General Theory of Relativity which holds that light (in a pure vacuum) always travels at constant velocity (300,000 km/sec), no matter what frame of reference you are viewing that light in – totally contrary to experience and expectations, but true nevertheless. That translates into length and mass and rate-of-change (time) all being variables, variations depending on what frame of reference you are in. Light of course is one manifestation of the electromagnetic force. That suggests to me that magnetism must also propagate at 300,000 km/sec. Two north magnetic poles or one north and one south magnetic pole, suddenly brought into existence, 300,000 km apart, won’t feel any mutual repulsion or attraction respectfully until one-half of one second after-the-fact, when the two forces meet in the middle and start doing their thing.

But that constant speed of a force, must equally apply to gravity. If the Sun were to suddenly in a split of a split of a split second vanish, it would be eight minutes before Planet Earth would be rudderless, or rather orbit-less. No matter what your frame of reference, you’d ‘see’ gravity propagate outwards at 300,000 km/sec. The same must apply to ‘dark energy’, that anti-gravity force. I imagine the same would apply to the propagation of the strong and the week nuclear force as well.

Of course one cannot turn on and turn off gravity (or the strong and weak nuclear forces) like you can a light (or radio, UV, IR, etc.) beam or magnetic field, which is a bit of a bummer in testing the relativistic properties of a gravity beam.

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* Gravity; it’s what holds you firmly to Terra Firma. If I ask you what holds you firmly to Terra Firma you’d answer “gravity”. But if then asked to explain exactly what it is and how it works you’d be stumped. Giving the Newtonian equations makes predictions but doesn’t give explanations.

However, there are two explanations for gravity if I read the textbooks correctly.

Gravity Is Just Another Force: Firstly, there are in this worldview four fundamental forces: the electromagnetic force, the strong and weak nuclear forces, and gravity. Forces have accompanying elementary particles witch convey the force. In the case of the electromagnetic force, the particle is the photon. The particle associated with gravity has been dubbed the graviton. Unfortunately, it has never (to date) been detected. Now the central issue here is try as they might, physicists cannot unify the four forces into one whole, called a Theory of Everything or TOE**. Since everything should be related to everything else, gravity should be, if not a brother or sister to the other three force-related siblings, at least a kissing cousin. Alas, it’s an unrelated hermit that wants no ancestry with the other three.

Gravity Is Just the Geometry of Space-Time: The second is that mass ‘tells’ space-time how to warp, and warped space-time ‘tells’ mass how to move – seemingly experimentally verified more than several times over. The movement of mass in warped space-time is what we interpret as the ‘force of gravity’, but gravity is actually the actions of mass moving in space-time geometry. If gravity is just geometry and mass deviates from the straight and narrow path because lots of other mass has warped space-time from the flatland Great Plains to the peaks and valleys of the space-time Rockies, then there’s no apparent need or reason that I can see to unify gravity with the other forces and their particles. There is no graviton. If there is no causality link with the other three (quantum level) forces, there’s no need for a TOE. There’s no need to reconcile the 98 pound of weakling gravity with the Atlas physiques of electromagnetism, etc.

Gravity is highly anomalous. Apart from the fact that gravity is the 98 pound weakling of all the forces (you can pull a paperclip up into the air with just a tiny magnet even though the entire Planet Earth’s gravity is tugging back); and that the graviton hasn’t been spotted anywhere, anytime, anyhow; and that TOE is a no-go; but lastly there are those cosmic twin anomalies, Dark Matter and Dark Energy.

We can’t see, or even detect directly, 96% of the Universe! We have no idea what 96% of the Universe is composed of. If that’s not anomalous, I don’t know what is. Both however have revealed themselves indirectly via their gravity (in the case of Dark Matter) or their anti-gravity (in the case of Dark Energy). Some of that ‘missing’ part of the Universe is matter of unknown composition, but like all good matter, has gravity. It’s the gravitational effect on matter we can see that gives the game away. Some more (way more) of that ‘missing’ part of the cosmos is Dark Energy which is that unknown stuff which is accelerating the expansion rate of the Universe and if that’s not anomalous, I don’t know what is since by rights the expansion rate of the Universe should be decelerating under the force of gravity. The fact that it’s accelerating suggests that Dark Energy is a form of anti-gravity, a repulsive force driving things apart at ever faster and faster rates. Though anti-gravity is really outside the accepted realm of physics (though not sci-fi), there is a symmetrical parallel with the electromagnetic force, which is both attractive like gravity (north pole to south pole) and repulsive (north pole to north pole, or south pole to south pole).

So, gravitational anomalies abound.

**The exception is that the highly theoretical (read purely mathematical) String Theory, Superstring Theory or M-Theory can produce a TOE. The downside is that it takes a whole potful of highly theoretical (read purely mathematical) extra dimensions of which we have no awareness of and can’t (yet) detect. That’s just a bit too ad hoc for me, though many a theoretical physicist goes to sleep by counting their strings instead of their sheep.