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Janus

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Everything posted by Janus

  1. An answer to your questions might lie in how Finland dealt with the homeless issue. They found that if you provide housing without stipulation, then those people tend to be able to get jobs and require less and less assistance. In addition, it turns out to be cheaper in the long run than dealing with the issues caused by a large homeless population. As a result, Finland has almost no homeless problem. In contrast, in the US, you basically need to meet certain conditions before you become eligible for housing. If you don't meet them, then tough luck.
  2. No, not really. I think this idea comes from a misunderstanding of time dilation. While it is true that a clock moving relative to you would,as measured by you, tick slower and slower as it it approached the speed of light, the equation that predicts this is "undefined" for speeds greater than c (It gives a result that is the square root of a negative number. ) Now there are some setups that could be used to create causality issues in Relativity if FTL is allowed. Basically, this involves extended systems moving relative to each other, and rely on how these systems measures simultaneity differently. An example of such a system would be two long trains passing each other in opposite directions. One train sends an FTL signal from one car to another. That car transfers the signal a car of the other train as they pass each other. The second train sends an FTL answer back along it length, to be transferred back to the car that originated the message. Under the right conditions, allowing FTL transmission can result in the answer arriving at the origin before the initial signal was sent. This goes back to what swansont was referring to a few posts ago. The truth is that the Theory make no predictions as to what would happen if you exceeded c, as that is beyond it range of applicability.
  3. Your "de-energized" photons sound like a rehash of the Aether, a concept abandoned long ago. And if light transmission is due to energy be transferred through this medium, and this medium is also dark matter, then how does light travel between galaxies, when dark matter tends to collect in clouds around galaxies. And, as joigus alluded to, if this sea of de-energized photons has neither mass nor energy of its own, then how does it generate the gravitational field needed to account for the observations that led to the need for dark matter in the first place?
  4. Janus

    "The Balloon !"

    Riiight. What would be the point of China putting a nuclear bomb on it? What good would have dropping a single nuclear bomb have done? It would be of no significant strategic value, and would only risk starting a full nuclear exchange, and if such an exchange was their goal, they would have just done a full scale nuclear strike.
  5. Just an addition to the previous post. In the Classical Doppler shift equation, vo and vs refer to the velocity of the observer and source with respect to the medium through which the waves are propagating. As result, you get a different answer if you have the source moving with respect to the medium than if it is the observer moving with respect to the medium. Whereas with the relativistic equation, there is no medium and the answer only depends on the relative velocity between source and observer. Also, There is a typo in the equation given for Relativistic Doppler shift. It should be v-c for upper part of the fraction. You will often see this equation written with 1-ß and 1+ß instead, where ß = v/c
  6. For the Sake of this example, we ignore the Earth's own rotation, as it not a factor as far as tidal forces go and unnecessarily complicates the scenario.
  7. If the Earth were stationary (held suspended above the Sun by some magical string), then yes, an object on the Sun side would weigh less. But it is not, it is in orbit, which is a free fall trajectory. That means everything on Earth is also following that trajectory. In other words, if you suddenly removed the Earth, and left behind only the objects resting on its surface, those objects would continue to orbit the Sun on their own. Now let's simplify things. Assume you have only three objects., The Earth, and objects on its Sun side and the opposite side. We will then magically remove the Earth's gravity's hold on the two objects. What would happen? The Earth will continue along its orbit as usual. The Sun side object will follow it own independent orbit. It is closer to the Sun than the Earth's center, but starts with the same velocity as the Earth's center. It would need a higher speed to maintain this orbital distance, so it will begin to "drift" in nearer to the Sun. On the other hand, the object on the opposite side, being further from the Sun, and also starting off with the same speed, is moving too fast for its distance from the Sun, and will start to drift away from the Sun. Add the Earth's gravity back in, and you get the result that both objects are a bit lighter than objects sitting on the day/night line. This is known as "tidal effect".
  8. To your point of a laser beam propagating at an angle, It does. This is a well understood concept called the aberration of light. If I put a laser on a moving cart, aimed straight up, and the cart is moving relative to me, I would measure the laser as propagating at an angle other than straight up. Of course since the speed of light is as fast as it is. the cart would have to be moving at a pretty good clip for me to notice it without very accurate measuring equipment. A lot of the rest of your post revolves around motion, and appears to treat it as an absolute. It is not. This is something Galileo understood. The "Moving clock" can considered to be at rest, and the "observer" as moving. It doesn't matter which of the two you consider as moving, the observer will observe the same thing. Relative to himself, the light travels at angle. The total distance traveled as measured by them, is longer than that measured by the clock. A postulate of SR is that light travels at c relative to frame of reference from which it is being measured. Here's an animation comparing 2 light clocks, one moving relative to the frame, the other not. The white dots are the light pulses bouncing between two mirrors. The circles expand at c to represent the speed of light. Now as far as the moving clock is concerned, the it's pulse just goes up and down between the mirrors at c, so it measures 1 "tick" to last the same length of time as the non-moving clock does in this animation. So for example, both clocks would measure going from 0 to 1 as taking 1 us. For a horizontal pulse, you need to take length contraction into account, as the stationary clock would measure the moving clock as being length contracted: You will also note that as far as the stationary clock goes, the horizontal pulse going in one direction take longer for the moving clock. This is an example of the Relativity of Simultaneity. Also, if we were to switch our viewing frame, so that we saw the clock moving to the right as "stationary" and the other other clock moving to the left. Then it would be the clock moving to the right that would be seen as ticking slower (keeping in mind that we change nothing but which clock we are "following") As far as muons go, their "mass" does not increase. Their kinetic energy is high, and thus their momentum. But what is really happening is that the increase in both rise at a different rate than that predicted by Newtonian physics. So, if you were to apply Newtonian formulas to them, it would seem as if their mass increased, but the Newtonian formulas don't apply properly here. Besides that, the muon example, while one of the earlier tests of Relativity, was not the only and definitely not the last. Countless of observations have been made, all giving results affirming Relativity. You would have to come up with multiple explanations for them all. Explanations which conspired to produce the results of Relativity.
  9. Whether you consider it It a "Perpetual Motion" device, or an "Over Unity" energy device, matters not. They are both equally impossible.
  10. Newtonian Physics says the period of an orbiting object is T = 2pi R^(3/2)/(GM)^(1/2) Thus 1/(2pi) = R^(3/2) / T(GM)^(1/2) Square both sides: 1/(2pi)^2 = R^3 / GM T^2 Move GM to the left side of the equation: 1/GM(2pi)^2 = R^3 / T^2 Invert both sides GM(2pi)^2 = T^2/R^3 So what Kepler's law states is that for any central body, there is a specific relationship between R and T Newton keeps the relationship. It just includes the mass of the central body, so if you know any two of T, R, or M. you can find the third.
  11. Dark energy is not required for the universe to expand, it is needed to explain why the rate of expansion has been increasing over time. The original assumption was that, starting from some initial impetus, the universe began to expand, and that over time, the mutual gravitational attraction of its matter would slow the expansion rate. From this there were two possibilities: 1. Gravity would eventually win, the universe would stop expanding and then collapse back in on itself. 2. The universe didn't have quite enough mass to stop the expansion completely, and it would continue to expand forever. The study that opened the whole dark energy can of worms was trying to determine which of these was true. What they did was measure the recession velocity of various galaxies at various distances. Since the further a galaxy is from us the longer it took its light to reach us, you were looking further and further into the past as you looked at more and more distant galaxies. You then plot a distance/recession graph. If the rate of expansion had been constant over time, you would get a straight line. Of course, this was not what they expected to see, they expected to get a curve, the degree of which would indicate how fast the expansion was slowing. They got a curve, but one that curved the opposite direction, indicating that the expansion rate had increased over time. Something was causing it to speed up. They settled on calling it "dark energy" just for the simple fact that the term "dark matter" had already been in usage (And this is the only thing the two have in common). As to the exact nature of dark energy, it is still an unsolved mystery.
  12. Genady has a point. Gravity causes planets,etc. to form because regular matter interacts electromagnetically. Collisions, friction etc. is a result of this electromagnetic interaction. A secondary result of this interaction is the production of electromagnetic radiation. The production of this comes at the expense of kinetic energy from the matter involved. Two particles collide, emit some EMR and separate, but at a slower speed than they met at. This happens enough and a clump of matter of matter forms. DM does not interact electromagnetically, not only does that mean it doesn't "collide" like regular matter, but it doesn't have the same mechanisim to shed KE. A DM particle can approach a planet, pass right through it, and fly off with the same speed it started with. There's is nothing to hold it in the vicinity. Having said that, There are ways for DM to clump. Gravitational interactions can cause such distributions. But compared to electromagnetic interaction, they are very,very, very, weak, and produce results much slower. The Universe just hasn't been around long enough for small compact collections of DM to form, Just much, much larger and diffuse collections like galactic halos.
  13. The first thing to keep in mind is that while 90% of the mass of our galaxy is estimated to be dark matter, This includes the entire DM halo or a spherical volume that extends well beyond the visible matter disk of the galaxy. Once you spread it's mass throughout that huge volume, you end up with an extremely low density. The other thing is that even though, if you were to take the total mass of the solar system and spread it out evenly throughout a spherical volume enclosed by Neptune's orbit, you would end up with a overall density that would put a man-made vacuum to shame, it would still be many many times denser on average then, say, a 10 parsec radius sphere in our part of the galaxy. And that 10 parsec sphere would, still contain more regular matter than DM. It is estimated that the total mass of DM in the Solar system is equivalent to that of 1 small asteroid. Even a 10 fold increase in this density would be insignificant gravitationally to the Solar system. If this is the case, then how is it that DM can cause discrepancies in the rotation curves or galaxies? The visible matter in galaxies like the Milky Way is concentrated in its central bulge and thin disk. So if you calculate orbits based on visible matter, you need to take this distribution into account. DM however, is spread out spherically, and the vast majority is "above" and "below" the galactic disk. And any mass closer to the center of the galaxy than a given star, has a gravitational effect on that star's orbit around the galaxy. So, for example, if we take that 1 small asteroid's amount of mass spread out throughout the Solar system, and apply that density to the volume of the sphere contained within the Sun's galactic orbit, you get a total mass of DM that is a significant fraction of the total mass of the visible mass of the Milky way; enough to have a noticeable effect on the Sun's galactic orbit. The upshot is that star systems like the Solar system are "matter rich dense spots", which makes their internal orbital mechanics essentially immune to the kind of DM density variation likely to occur.
  14. Assuming the Earth isn't engulfed when the Sun enters its red giant stage, you'd be looking at something more like trillion of years, with a lot happening along the way. Right now, the Moon exerts the largest tidal effect on the Earth, So, first it will lock to it. Tidal braking from the Sun will continue to work to slow its rotation, But the Moon will fight it. The basic effect will be that as the Sun slows the Earth, it begin begins to rotate slower than the Moon orbits. In this scenario, the Moon-Earth tidal reaction is for the Moon to give up some of its angular momentum back to the Earth, dropping into a lower, even faster orbit. Even if, at first, the Sun has the advantage, the Moon will eventually move in close enough to once again be the dominate tidal effect, The Earth's rotation will begin to speed up again, with the Moon getting closer and closer. Then eventually, the Moon would pass below the Roche limit and break up into a ring. With its mass spread out in evenly around the Earth as a ring, it loses it tidal influence, and now the Sun could eventually lock it to itself. And even being tidally locked to the Sun wouldn't guarantee an end to "seasons". The Earth could be tidal locked to the Sun and still have an axial tilt. It would rotate once per orbit, but the North pole would still lean towards the Sun at one part of the orbit, and away half an orbit later. We see this with the Moon, which is tidally locked to the Earth, it has a small axial tilt of 6° It alternates between showing us more of its North pole or South pole during it orbit.
  15. When I was growing up in the '60, living in Northern Mn., my dad was driving to work early one morning, passing through a small town, and noticed that he was feeling chilly. He checked the car heater and it was full on, and since it usually did a good job, he suspected something was wrong with it. Just then, they announced the temp in the town he was in over the radio. it was -40 degrees. He thought, "Ah, that explains it." and continued on into work. ( He worked in the iron mines, which were open pit mines, which, during the Winter, sunlight never reached the bottom of, so who knows how cold it was there.) During one recess in grade school, someone stuck their tongue to the outside of a metal door during the dead of a MN winter. (like in "A Christmas Story") However, instead of the calling the Fire Dept, and pulling him loose, a teacher simply poured warm water over the area until it heated up enough to free him.
  16. This is one of those "If we could break the rules, what would the rules be" type of question. If FTL is possible, then there is something missing in our understanding of the universe. But from our position, we don't know what that is. And without knowing that, we can't even guess what the consequences of FTL would be.
  17. The actual amount of bending of the light path passing by the galaxy is very, very, very tiny. To see this Einstein ring . we need to be the correct distance from that galaxy in order for the bent light to converge where we are. For example, we could use the Sun as a gravitational lens, but to do so, we would need to be 542 AU from the Sun, because light grazing the sun deflects light by just 1.7 seconds of an arc. Now consider that the galaxy bending the light is billions of ly away, and keeping in mind that just 1 light year is ~117 times longer than 543 AU. Just how much do you think the light passing the galaxy would need to converge on us? Magnitudes less than it does passing the Sun. Secondly, Astronomers, astrophysicists, etc. are well aware of the Relativistic effects that exist, and how to calculate them. If they were a significant issue, they would be factoring them in already.
  18. This is the difference between "proper" light speed (that measured locally), and the "coordinate" speed of light,( the speed of light at some distant point, measured by our local units of time and space). So yes, light passing say, by the surface of the Sun, would appear to be moving just a tad slower than c, as measured by us further out (Though someone at the surface would measure it as moving at c). How would this effect our measurements of interstellar or intergalactic distances? Insignificantly. The very slight difference this might make in any distance measurement is completely overridden by other factors that lower the accuracy of our distance measurements. In other words we don't claim that our distance measurements are accurate enough in the first place to worry about it. For example, take the star Betelgeuse. It is given a distance of 548 ly with an error of +90 to -49 ly. This potential error range is magnitudes larger than any due to a difference between proper and coordinate light speed.
  19. For the very reason that it gives NATO an reason to increase air presence in the region is why I have my doubts as to this being Russia. They are having trouble enough with Ukraine, why would they take an action that would only make things worse for them?
  20. The first argument is just a rehash of the old "Tired light" argument which has been dismissed because it is not consistent with observations. As far as Andromeda goes, No, it is not suspicious at all that Andromeda is approaching, as it is part of our local gravitationally bound group of galaxies. The gravitational attraction between these galaxies holds them in orbit around their common center of gravity. Galaxies are not evenly spread out, but are grouped in a hierarchy of structures; groups, clusters, super-clusters, with voids in between. It isn't until you get to the size range of the larger structures that the overall expansion of the universe overrides gravitational attraction If you had done any serious investigation into the subject, you would have learned this, and your lack of knowledge of it shows that you didn't really bother to do more than just scratch the surface of the subject before jumping to conclusions. If you are not going to go to the trouble of doing even a moderate amount of effort of gathering basic information, why should anyone else go to the trouble of taking your musings seriously?
  21. Some issues with your idea: It fails to explain why DM(Dark matter) is concentrated as spherical halos surrounding galaxies. Our own galaxy's DM halo only extends out to 210 thousand parsecs (compared to the 27 thousand parsec diameter of the galaxy itself). It is within this radius that the "extra mass" is needed to explain galaxy rotation curves. If the majority of light is contributed by other galaxies, then it would not be concentrated in a region around us (or any other galaxy.) But the vast amount of dark matter mass would be evenly spread out through the universe. Andwith this being the case, it would have no gravitational effect on individual galaxies' rotation. ( Mass evenly distributed throughout the universe has no effect locally, as the combined effects cancel each other out over "small"(compared to the size of the universe) regions. Put another way, for things to work the way we see them happening, the extra mass of DM has to be mostly clumped around galaxies, and not spread out evenly through the universe. And if that much light was concentrated in the region around galaxies, we would see it. Even intergalactic space isn't completely empty, and the little material there would scatter enough of that light to produce a visible "glow" It fails to explain why we have found some galaxies that seem to show little to no indication of DM. They produce just as much light as other galaxies, and are being bathed in just as much light, but do not behave the same. Then there are observations like the Bullet cluster, where we are looking at the aftermath of galactic collisions. Here we can use gravitational lensing to locate concentrations of mass, and have noted that after the collision, there is a region that shows a concentration of mass that is separate from any visible light source. This is what one would expect if the DM was separated from its parent galaxy by the collision. This is not something that could occur if DM was the result of the mass of light.
  22. It's not even the inverse square law that's meaningful, but the inverse cube law of tidal effects. Take a body like Mars, It has a gravitational pull on you, but it also has one on Earth, and since both you and the center of the Earth are nearly the same distance from Mars(when compared to the distance to Mars), the acceleration experienced from that pull is almost equal, and it is only the slight difference that could have any effect on you. This is the tidal effect. These types of tidal forces fall off by the cube of the distance. Given the mass of Mars, and it distance at its closest to Earth, a 0.2 gram mass at a distance of 100 meters would exert a larger tidal force on you than Mars would.
  23. From my limited understanding, the reason "run of the Mill" neutrinos have been excluded from the list of candidates for making up a major component of dark matter is that it would have altered the formation of the universe. That many neutrinos would have prevented the small scales structures from forming as early as they did. That doesn't mean neutrinos are out of the question entirely, there is the hypothesized "sterile" neutrino, which doesn't interact with other matter at all, except gravitationally. Some recent findings have suggested to its actual existence.
  24. In any terms that matter, he's already lost, and did the moment Ukraine didn't fall within a few days of the start of the attack. The action ended up having the opposite effect he wanted. It solidified NATO, and actually influenced two nations, previously reluctant to do so, to join. It exposed the Russian military as being a paper tiger( It has lost its position as being considered the third most powerful military, with other nations now in the running for that honor). Instead of strengthening the Russian Empire, it has crippled it. Even He were to finally prevail in terms of capturing Ukraine on the battlefield, all he will have done is have taken some ground. The major goals of the invasion have already evaded him.
  25. I'm wondering if it is capacitive. Placing your hand near it alters the capacitance, which sensed as a frequency change in the circuit. Touching disrupts the circuit. Just a wild guess.
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