• Noble Dust
    8k
    Why did this thread get renamed?
  • Baden
    16.4k


    I put it in the question category while at the same time wanting to emphasize it does not concern a philosophical mystery (at least that's the developing consensus).
  • Banno
    25.2k
    Good call.

    I wonder, if the forum accepts posts from crackpots, what the result will be. Will it attract more crackpots? I don't think so; I suspect that they will not like each other's company. So there may be an advantage to the community in keeping one or two "pet" crackpots around the premises...

    THe trick will be to keep them in the right place - the science threads are not the right place.
  • Hachem
    384

    Science is always a matter of consensus. There is no greater authority than the scientific community to decide at any period whether a view should be taken seriously.

    But a forum community is not a science community. Their consensus is irrelevant. Unless you want to protect young minds from pernicious ideas, a forum should be the place where ideas and opinions clash.

    The protection of what it means to be "scientific" is according to me the biggest sign of weakness a community can show.

    Science does not need to be protected from crackpots. There were the results speak for themselves a scientist can simply refer to them.

    Of course, very often, results are colored by the theory that distinguishes them from the plethora of other data. It becomes then a matter and of discussion and of further empirical research.

    The intensity with which people think that they have to protect science is unscientific and frightening. It is a danger to progress because it raises generations in awe of what science has already achieved and encourages orthodoxy there where only controversial ideas may contribute to progress.
  • Hachem
    384

    I see that you have not only transfered the thread, but also changed the title without my permission. I find the former to be your prerogative, but not the latter.
    Light is still a mystery for science, and Einstein was the first to acknowledge it.
  • Baden
    16.4k


    Objection noted.
  • Hachem
    384

    I would propose to move all my threads in Philosophy of Science to the Questions section.
    Maybe then a rational discussion will be possible.

    edit: but please do not change anything to the titles or the text!
  • Baden
    16.4k


    Ok. I'll do that anon.
  • Hachem
    384

    would be so kind then as to restore the original title of this thread?
  • Baden
    16.4k


    Not sure all these discussions should be in the Question category actually. Need a little time on this one.
  • Hachem
    384
    Maxwell's conception of light has to be distilled from all his remarks on the phenomenon since he never explicitly studied the object, at least not in his treatise [There are some remarks on optics but they were never really worked out to a full fledged analysis, Maxwell not trusting his powers of observation in this matter].
    A search of his famous Treatise on the term "light" yields, besides irrelevant homonyms, one single conclusion: Maxwell never considered light as anything else but a by-product of electricity. One can read his comments on glow, spark and electrical images and be easily convinced.
    In fact, speaking of electrical images (chapter VII), he takes the optical phenomenon as the basis to try and explain electrical images:
    "100.] The idea of an image is most easily acquired by considering the optical phenomena on account of which the term image was first introduced into science."

    Another interesting moment is par.149 ff where he speaks of light phenomena as observed through a spectrometer. His conclusion is certainly worth quoting:
    "... neither the electric fluid, if there be such a substance, nor any etherial medium such as is supposed to pervade all ordinary matter is rendered luminous during the discharge, for if it were so its spectrum would be visible in all discharges."

    The spectrometer shows him beyond doubt that the different lines one witnesses when analyzing light from different substances that they cannot come from anything else besides the substances themselves.
    In other words, no light without matter, since neither the "electric fluid" nor the the "etherial medium" - Maxwell still believes in the ether- can be rendered luminous.

    This short analysis shows that my conception of light as a local phenomenon created by the collision of e.m waves and matter is certainly compatible with Maxwell's own analysis.
  • Metaphysician Undercover
    13.2k

    Are you familiar with Newton's work on light? He did a lot of experimentation with prisms, mirrors, etc., and wrote an extensive speculative treatise on the nature of light, I believe it's in his "Optics", "The Queries". It's been a long time since I read it, but I believe he concluded that light is a particle, but it's a very odd sort of particle, like an inverted particle. Massive, material particles would undergo an inversion within the sun, to become light particles. I believe he provided the basis for the modern "point particle". In any case, his speculations were displaced by wave theories, and only since the twentieth century with the development of quantum physics, have they become more relevant.
  • Hachem
    384

    yes, the title is in old English "Opticks". What is your point if I may ask?
  • Metaphysician Undercover
    13.2k

    I want to know if you've read this material, and what is your opinion of it.
  • Hachem
    384

    Yes, I have read it. And, if you have read this thread, you will know that I do not agree with it. It considers light not as a local phenomenon, but as an independent one. The difference with Huygens being that he indeed considers it as made of corpuscles. I have to add that Newton was very circumspect and never really showed his hand, hiding behind his non fingo hypotheses and preferring to concentrate on the description of what he saw. It was more his followers that really took a stand, encouraged by Newton's lack of endorsement of Huygens analysis.
  • VagabondSpectre
    1.9k
    I don't recall where you stressed the importance of EM waves interacting with matter, but yes, that would be on the right (well evidenced) track!

    Matter, in fact, generates EM waves (notably excited electrons). When something glows red hot for instance, it's electrons are bouncing back and forth so quickly that they actually generate photons (making them "glow"). I believe you can accept the above, and also that Roomer did essentially calculate the approximate finite speed of light (even if you think he didn't really prove it, so long as you can accept that the speed of light is finite then we can move on).

    So, light interacting with matter. Yes. Let's talk about the quantum and Newtonian scale of the scientific models:

    On the quantum scale, a single excited or energetic electron might generate a photon which goes flying off in whichever direction. This single photon can be thought of as a wave-particle in that it has a particular wavelength as it travels (a probabilistic super-position), but will inevitably end up with a single realized position should it encounter an obstacle. The energy that the electron lost in generating the photon will determine it's wavelength, thus maintaining the conservation of energy laws. If this single photon strikes an atom, the electrons in the atomic structure may either absorb some or all of the photon's energy (causing them to store the energy as excitement/heat), and then they reflect the remainder (technically the photon is annihilated and a new weaker one is created). Whether or not a photon will be absorbed or reflected (and by how much) when it encounters an electron depends on the potential energy values of the atomic structure that the electron is contained in, which is why different objects reflect different wavelengths and quantities of light. The wavelength of a given photon determines whether or not the various detectors in our eyes (the red, green,and blue ones) will be able to sense them, and depending on the mix of various quantities of differently colored photons entering our eyes, we therefore see different colors.

    So, on the Newtonian scale, let's start by considering normal sunlight (generally white light). It's more or less an equal mix of red, green, and blue wavelength photons, and when a bunch of them enter our eyes at once we perceive the color white. White objects reflect RGB wavelength photons equally which is what makes them "white".

    Now consider white light striking a green object: the surface of the "green" object is absorbing all or most of the photons striking it (causing it to heat up a bit) except for the green wavelength photons. The only photons which green objects do not absorb and instead reflect are green ones!

    White is a color, but black is more accurately conceived as the absence of color. Black is what an object looks like when it absorbs most or all of the photons which strike it, and in a sense is what we see when very few photons enter our eyes from a particular direction. Notably the fact that black surfaces absorb most of the light which strikes them is why they heat up more quickly than other surfaces (and is also why white or highly reflective material like Mylar heats up the slowest due to electromagnetic radiation).

    So imagine a world where light has a finite speed rather than some other mysterious nature as depicted in your captain/telescope + sailor below example. As we get farther away from a light source (a source of reflected light or a direct source) the photons that strike us become fewer and fewer because they tend to constantly spread out from one another the further they travel. This means that fewer photons from a given source will pass through a given aperture pointed toward that source the farther away it gets (think how the skin of a balloon becomes thinner the more it is stretched out as it's diameter increases).

    Using the ship on the horizon example, the fact that the human eye is a smaller aperture means that it can collect fewer photons from a given source than the larger aperture of the telescope. The fact that sheer resolution issues will affect the human eye before a telescope is a function of their relative size.

    Being unable to distinguish a ship on the horizon doesn't mean "you're seeing the ship as it is now rather the light which is reflected from it with some time delay", it just means that the human eye is in that case too small to catch enough photons from the ship to distinguish and recognize any meaningful details.

    P.S: Have you begun watching the physics series I recommended?
  • VagabondSpectre
    1.9k
    In addition to considering the above, could you formalize your actual hypothesis about what light is rather than trying to vaguely challenge the contemporary scientific consensus of it?

    In other words, exactly what about your conception of light is incompatible with the conception of modern physics?
  • fishfry
    3.4k
    Just a general idle comment here. It's always struck me as interesting that when the God of the Christian Bible created he universe, he said, "Let there be light." And in modern physics, the most fundamental thing in the world is electromagnetic radiation. Light.

    Whatever the universe is, however it got started, the first thing to know about it is that there is light.

    I have no idea what light is. Does anyone?
  • Hachem
    384
    @VagabondSpectre

    I wonder why you are back. Hadn't you decided that enough is enough?

    Well, I fell the same way. Good day to you.
  • VagabondSpectre
    1.9k
    I wonder why you are back. Hadn't you decided that enough is enough?Hachem

    While most of the other posters have decided that there's no point seriously conversing with you, I don't recall making any such decision.

    I did inform you near the outset of our interactions that I'm probably going to be the only one patient or stupid enough (or some combination of both) to actually sustain prolonged discourse with you given the nature of your suggestions. And since my assumption seems to have been accurate, why not just attempt to rebut my criticisms? If you don't at least attempt to have legitimate discourse (if not with me, then with who?) then I'm afraid the endless torrent of obscure threads you create will only illicit occasional ridicule rather than interesting dialogue that might actually be worth writing or reading.

    I find your presumptions about the behavior of light to be deeply malformed and demonstrably false (example: the captain-sailor analogy where telescopes magically access photons which have not yet reached them). Your criticism of Romer's experiment depends on an explanation of how parallax or resolution might actually affect his results which you have not provided, nor have you offered an alternative model that could actually predict future deviations in eclipse duration such as the accurate predictions we can make when we use the model of finite light speed. The pinhole experiments you have conducted are interesting on the surface, but it's quick and easy to discover that Airy disk patterns are well understood to result from focusing a laser through a small aperture or lens. This photo is the result from shining a red laser through a 0.1 mm aperture. According to Wikiedia, a 0.25mm aperture and three extension rings sound like the conditions required to create the Airy pattern.

    If the unintuitive nature of quantum mechanics upsets you, and that is actually the root and fundamental gripe driving the creation of these threads, then there can be no consolation; quantum mechanics unfortunately is what it unfortunately is.

    But it seems like all of your threads form a path which wraps around a tangled and impenetrable bush that represents your own personal vision of how light really works. If you could clearly communicate that vision so It could be addressed rather than trying to challenge the existing theories with fringe objections (as if to prepare us all for the eventual true replacement that you provide us with) that would save you from having to create a crap ton of threads.

    Please, I beg you, tell me again how it is you just know that telescopes break the laws of thermodynamics by accessing photons which have not yet reached them?

    You may say "good day" and ignore me, but that will probably only encourage others to read my posts which are so very critical of your own. If you want to persuade anyone then you need to address my points directly as I have addressed yours. If you want to actually have your misconceptions corrected like you repeatedly claim, then likewise, you need to confront my explanations directly.

    And no, I did not announce that enough is enough. You must be confusing me with literally every other poster. And so here you are, barking and biting at the only hand repeatedly attempting to feed you...

    Why?
  • Banno
    25.2k
    I doff my hat to you, @VagabondSpectre.
  • Hachem
    384
    @vagabanno
    The intensity with which you are trying to destroy my credibility reeks of hate and despair. Those emotions should be completely absent of a discussion about scientific issues.
    If you think I am a crackpot, as you have explicitly and oftentimes not so subtly, made clear, then there is only one rational attitude you should adopt.

    Ignore me.

    Unless of course you think that you should protect the world, science and this forum from my pernicious ideas.

    In such a case, your crusade would be understandable and your zeal would do you honor.

    As it is, I fear that I have lost any bit of respect for you as intellectuals and consider continuing a sterile dialogue utterly senseless.

    Do yourself a favor and go play somewhere else. There is nothing you could say that could entice me to reply to your attacks.
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