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Greatest Questions of Our Universe

Discussion in 'Science and Nature' started by HookedonPhonics, Mar 17, 2012.

  1. TOP TEN UNSOLVED PROBLEMS IN PHYSICS

    1.Are all the (measurable) dimensionless parameters that characterize the physical universe calculable in principle or are some merely determined by historical or quantum mechanical accident and uncalculable? Einstein put it more crisply: did God have a choice in creating the universe? Imagine the Old One sitting at his control console, preparing to set off the Big Bang. "How fast should I set the speed of light?" "How much charge should I give this little speck called an electron?" "What value should I give to Planck's constant, the parameter that determines the size of the tiny packets -- the quanta -- in which energy shall be parceled?" Was he randomly dashing off numbers to meet a deadline? Or do the values have to be what they are because of a deep, hidden logic? These kinds of questions come to a point with a conundrum involving a mysterious number called alpha. If you square the charge of the electron and then divide it by the speed of light times Planck's constant, all the dimensions (mass, time and distance) cancel out, yielding a so-called "pure number" -- alpha, which is just slightly over 1/137. But why is it not precisely 1/137 or some other value entirely? Physicists and even mystics have tried in vain to explain why.

    2. How can quantum gravity help explain the origin of the universe? Two of the great theories of modern physics are the standard model, which uses quantum mechanics to describe the subatomic particles and the forces they obey, and general relativity, the theory of gravity. Physicists have long hoped that merging the two into a "theory of everything" -- quantum gravity -- would yield a deeper understanding of the universe, including how it spontaneously popped into existence with the Big Bang. The leading candidate for this merger is superstring theory, or M theory, as the latest, souped-up version is called (with the M standing for "magic," "mystery," or "mother of all theories").

    3. What is the lifetime of the proton and how do we understand it? It used to be considered gospel that protons, unlike, say, neutrons, live forever, never decaying into smaller pieces. Then in the 1970's, theorists realized that their candidates for a grand unified theory, merging all the forces except gravity, implied that protons must be unstable. Wait long enough and, very occasionally, one should break down. The trick is to catch it in the act. Sitting in underground laboratories, shielded from cosmic rays and other disturbances, experimenters have whiled away the years watching large tanks of water, waiting for a proton inside one of the atoms to give up the ghost. So far the fatality rate is zero, meaning that either protons are perfectly stable or their lifetime is enormous -- an estimated billion trillion trillion years or more.

    4. Is nature supersymmetric, and if so, how is supersymmetry broken? Many physicists believe that unifying all the forces, including gravity, into a single theory would require showing that two very different kinds of particles are actually intimately related, a phenomenon called supersymmetry. The first, fermions, are loosely described as the building blocks of matter, like protons, electrons and neutrons. They clump together to make stuff. The others, the bosons, are the particles that carry forces, like photons, conveyors of light. With supersymmetry, every fermion would have a boson twin, and vice versa. Physicists, with their compulsion for coining funny names, call the so-called superpartners "sparticles": For the electron, there would be the selectron; for the photon, the photino. But since the sparticles have not been observed in nature, physicists would also have to explain why, in the jargon, the symmetry is "broken": the mathematical perfection that existed at the moment of creation was knocked out of kilter as the universe cooled and congealed into its present lopsided state.

    5. Why does the universe appear to have one time and three space dimensions? "Just because" is not considered an acceptable answer. And just because people can't imagine moving in extra directions, beyond up-and-down, left-and-right, and back-and-forth, doesn't mean that the universe had to be designed that way. According to superstring theory, in fact, there must be six more spatial dimensions, each one curled up too tiny to detect. If the theory is right, then why did only three of them unfurl, leaving us with this comparatively claustrophobic dominion?

    6. Why does the cosmological constant have the value that it has? Is it zero and is it really constant? Until recently cosmologists thought the universe was expanding at a steady clip. But recent observations indicate that the expansion may be getting faster and faster. This slight acceleration is described by a number called the cosmological constant. Whether the constant turns out to be zero, as earlier believed, or some very tiny number, physicists are at a loss to explain why. According to some fundamental calculations, it should be huge -- some 1010 to 10122 times as big as has been observed. The universe, in other words, should be ballooning in leaps and bounds. Since it is not, there must be some mechanism suppressing the effect. If the universe were perfectly supersymmetric, the cosmological constant would become canceled out entirely. But since the symmetry, if it exists at all, appears to be broken, the constant would still remain far too large. Things would get even more confusing if the constant turned out to vary over time.

    7. What are the fundamental degrees of freedom of M-theory (the theory whose low-energy limit is eleven-dimensional supergravity and that subsumes the five consistent superstring theories) and does the theory describe nature? For years, one big strike against superstring theory was that there were five versions. Which, if any, described the universe? The rivals have been recently reconciled into an overarching 11-dimensional framework called M theory, but only by introducing complications. Before M theory, all the subatomic particles were said to be made from tiny superstrings. M theory adds to the subatomic mix even weirder objects called "branes" -- like membranes but with as many as nine dimensions. The question now is, Which is more fundamental -- are strings made from branes or vice versa? Or is there something else even more basic that no one has thought of yet? Finally, is any of this real, or is M theory just a fascinating mind game?

    8. What is the resolution of the black hole information paradox? According to quantum theory, information -- whether it describes the velocity of a particle or the precise manner in which ink marks or pixels are arranged on a document -- cannot disappear from the universe. But the physicists Kip Thorne, John Preskill and Stephen Hawking have a standing bet: what would happen if you dropped a copy of the Encyclopaedia Britannica down a black hole? It does not matter whether there are other identical copies elsewhere in the cosmos. As defined in physics, information is not the same as meaning, but simply refers to the binary digits, or some other code, used to precisely describe an object or pattern. So it seems that the information in those particular books would be swallowed up and gone forever. And that is supposed to be impossible. Dr. Hawking and Dr. Thorne believe the information would indeed disappear and that quantum mechanics will just have to deal with it. Dr. Preskill speculates that the information doesn't really vanish: it may be displayed somehow on the surface of the black hole, as on a cosmic movie screen.

    9. What physics explains the enormous disparity between the gravitational scale and the typical mass scale of the elementary particles? In other words, why is gravity so much weaker than the other forces, like electromagnetism? A magnet can pick up a paper clip even though the gravity of the whole earth is pulling back on the other end. According to one recent proposal, gravity is actually much stronger. It just seems weak because most of it is trapped in one of those extra dimensions. If its full force could be tapped using high-powered particle accelerators, it might be possible to create miniature black holes. Though seemingly of interest to the solid waste disposal industry, the black holes would probably evaporate almost as soon as they were formed.

    10. Can we quantitatively understand quark and gluon confinement in quantum chromodynamics and the existence of a mass gap? Quantum chromodynamics, or QCD, is the theory describing the strong nuclear force. Carried by gluons, it binds quarks into particles like protons and neutrons. According to the theory, the tiny subparticles are permanently confined. You can't pull a quark or a gluon from a proton because the strong force gets stronger with distance and snaps them right back inside. But physicists have yet to prove conclusively that quarks and gluons can never escape. When they try to do so, the calculations go haywire. And they cannot explain why all particles that feel the strong force must have at least a tiny amount of mass, why it cannot be zero. Some hope to find an answer in M theory, maybe one that would also throw more light on the nature of gravity.
    (Question added in translation). Why is any of this important? In presenting his own list of mysteries, Hilbert put it this way: "It is by the solution of problems that the investigator tests the temper of his steel; he finds new methods and new outlooks, and gains a wider and freer horizon." And in physics, the horizon is no less than a theory that finally makes sense of the universe.
    Thought i'd share this with you guys :smoke:
     
  2. 11. Where did I leave my keys?
     
  3. I was going to add on there, is there life on other planets/worlds. Then i wondered... who really considers that a question anymore??
     
  4. Does anyone smoke with their dog or cat and if so do they like it ?
    I smoke with my dog she is a total scavenger and follows me everywhere
     

  5. Why would i have to assume that? There is abundance of organic matter all over our galaxy let alone the universe... there is even organic matter found as close as Europa, Titan, Io, Venus, Mars etc. It's very likely that Mars once harboured life and depending on the resilience of life - which is extreme to say the least; just go down 300 meters, where the temperature can be up to 300C and pressures 300x that of solid ground and you will still find prevailing organisms - but Mars is now a dead planet, holding just 1% in equivalence to Earth's atmosphere, yet the giant Valles Marineris was no doubt carved by a liquid. However, that doesn't mean that ice doesn't still exist under its dusty surface, and within ice, life can exists just like on Earth.

    I am not saying there is life on Mars (no bowie) but i would bet money on there being other very very basic organisms living in our solar system alone (with then billions and billions of other stars just in our Galaxy alone, all with likely orbiting worlds) - my bet would be on Titan of Saturn, btw ;)
     
  6. Ah! Hooray! The future sure looks bright for your websites ;) thanks for sharing it :):)
     
  7. The real ultimate question is Why?
     
  8. It is still a question worthy of examination, at least some people will keep asking: Questions no one knows the answers to | Video on TED.com

    A great TED talk about exploring the unanswered questions.
     
  9. [quote name='"HookedonPhonics"']

    Why would i have to assume that? There is abundance of organic matter all over our galaxy let alone the universe... there is even organic matter found as close as Europa, Titan, Io, Venus, Mars etc. It's very likely that Mars once harboured life and depending on the resilience of life - which is extreme to say the least; just go down 300 meters, where the temperature can be up to 300C and pressures 300x that of solid ground and you will still find prevailing organisms - but Mars is now a dead planet, holding just 1% in equivalence to Earth's atmosphere, yet the giant Valles Marineris was no doubt carved by a liquid. However, that doesn't mean that ice doesn't still exist under its dusty surface, and within ice, life can exists just like on Earth.

    I am not saying there is life on Mars (no bowie) but i would bet money on there being other very very basic organisms living in our solar system alone (with then billions and billions of other stars just in our Galaxy alone, all with likely orbiting worlds) - my bet would be on Titan of Saturn, btw ;)[/quote]

    why titan? europa seems the most likely to me.
     
  10. Titan or Europa are the leading contenders, i just hedge my bets on Titan because of the liquid methane found there (with liquid found on the surface and subsurface). It also has a similar climate to the early Earth (though at a lower temperature), weather patterns and robust Nitrogen atmosphere.
     
  11. this is definitely where i parked my car
     
  12. i think gravity is simply attraction. the entire universe works off of attraction.
     

  13. leading contenders? you guys dont know very much. heard of zarmina? the guy who discovered it says he is 100% sure their is life on that planet. its earth like in everyway but 5 times larger than earth, and someone said water is undeniably all over that planet.

    i know for sure that there are crazy alien life on that planet, from fish to even "mammals" or some different variation. it just has everything to sustain life
     
  14. sounds legit.
     
  15. This is under debate as to whether or not it exists. This is fine though there have been opposing viewpoints and rebuttals but it seems that people have a lot of faith that it either is real or isn't real, but let's just explore the possibilities if it is real.

    First off, the debate over if it exists or not, weighs heavily on whether or not we'll find life here. If we can't "see" it clearly enough to 100% point to its existence then adding to the repository of knowledge about life on other planets is going to be tough.

    It's likely in a fixed orbit (fixed face, tidal lock) so one side is hotter than all get-out with greenhouse gasses dense on it's sun-facing side and Thick as-a-badgers-ass ice on the opposite side. Life? Maybe but intelligent life? I admit it is possible but a red dwarf star, in a tidally-locked orbit, extreme heating and cooling of any weather front, and really far away.

    Titan and Europa are different altogether but they have one thing going for them that Gliese 581g (Zarmina) doesn't, they are fantastically close. Close enough to visit with unmanned vehicles and tools, right now. I believe we'll be well on our way to answering the questions of other life in space, before we get detailed photos of planets outside our system.
     

  16. I clearly stated they were contenders WITHIN our solar system. Not the whole fucking universe...
    I wont even begin with the other rubbish you wrote.
     

  17. lol other rubbish? and damn bro..u mad?
    i know my post wasnt very scientific but look it up for yourselves, gliese 581 has life and youd be naive to think otherwise.
     
  18. Are you trollin? Really.

    From a 2 to 5 second Google search and consequently the Wiki for Gliese 581g (Zarmina):

    - Gliese 581 g - Wikipedia, the free encyclopedia

    Check the bolded, "unconfirmed" and "ESO/HARPS survey team claims that the planet doesn't exist." Without being able to look at it, all claims that life on the planet exists, all claims that water exists on the planet, or even the fact that the damnable planet itself exists is purely speculation and conjecture. Conjecture being (in the scientific community) opposed to hypothesis, axiom, and principle (testable reality)

    It's great that these guys are spreading the word about the possibilities and the probabilities but the facts are that we can't be sure... and if a scientist is telling you with 100% accuracy that there IS life on HIS discovered planet, that can't be seen nor confirmed, then they might just be setting up a self-serving agenda.
     
  19. a planet that doesn't even exist...obviously you'd be stupid to not come to the conclusion that there is obviously life on it.
     
  20. why cant we just appreciate every planet and star for being a product of nature? what more is life other than a product of nature, besides proteins? who cares if there life on a planet, theres life in the universe, we know that. the only irrational thing to say is there isnt life out there.
     
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