of course, there are areas where QM can't make predictions, but there will just be another physics theory that will make predictions in those areas that will prove to be correct
@DeadMG Except they don't explain what qualifies as an observation (or whatever that thing that makes things switch from quantum effects to "normal" effects is called).
@DeadMG But it could be entirely wrong. I can predict where a ball will fall, by simply believing that the ball follows a path mathematically calculated out, and base that assertion on the belief that an invisible force is pushing down from the sun.
@RMartinhoFernandes If i say template<T> add (T x), then sure compiler has no idea at compile time. But if i say template<int> add(int x)....... then why does compiler not know that ONLY ints are possible
@RMartinhoFernandes If you throw a ball during the night, you'll get exactly the same parabola as during the day. Even though you are the entire diameter of the Earth in increased distance.
@RMartinhoFernandes I was just about to explain that. Got a lot of typing to do :(
@Jimm By itself it allows you to have a template that takes an integer. One example would be to have a type template <int> class vector; that is a vector with a given number of coordinates.
@fabianhjr There's already a bunch of reasonable theories that combine QM and GR, but the problem is that nobody can design an experiment to test any of them. We're talking 50 orders of magnitude from sub-atomic to black-holes...
Right, but if I shoot electrons through a double slit, they will interfere unless I observe them to decide which slit they went through. However, cats won't interfere with themselves even if don't observe them.
@DeadMG Yes, you can invalidate that theory, easily. But, there's nothing saying that in the future someone will come along with a theory that works for both large and subatomic scales, and is completely different from QT and Relativity. Basically asserting that both are completely wrong.
It's simple. It's prideful to believe that science does anything more than provide predictions. To assume that it accurately describes the universe completely, is arrogant given the amount of revisions basic concepts (like the arrangement of particles in an atom).
@RMartinhoFernandes going back to function template, mainly because i have not yet understood class templates, so i am giving 2 clues to compiler. Clue #1. template<int> -- so i have restricted template to accept ONLY int, Clue #2 add(int x), here i am telling compiler that ONLY int should be passed to add(), so where is ambiguity left for compiler?
@Xaade no because there is no way to predict such energy, there is overwhelming evidence against a lot of events in the bible.(Not all for which several could have actually happened)
the interactions between the molecules of the slit and the single electron you're firing through it would only observe the electron in the slightest fraction and not make any meaningful difference at all
@RMartinhoFernandes I told you: one wavefunction period.
there's a big difference to nailing down the position of a cat to the nearest 10^-9 metres, and nailing down the position of an electron to the nearest 10^-9 metres
@DeadMG By what meaning.... that's ridiculous. I could extend this further. If no one observed the results on the page that observed the particles, can we say for sure that anything was observed or is that interaction have indeterminate measurement.s
observations aren't made by people, they're made by other particles
who usually cause the observation to take place, of course
@RMartinhoFernandes Theoretically, yes. However, protons are not so easy to produce and fire as electrons, and they have different wavelengths and such
Default template arguments are not part of the signature of function templates. But the type of template parameters is. So you can do the following and be able to overload it
template <
typename T,
typename boost::enable_if<
boost::is_array<T>, int
>::type = 0
>
vo...
@Xaade for common day life you do not depend on QM to make choices, and you do not try to fit QM to your normal life. Nor use QM as an explanation of outcomes. You do not use it as guidance on morality and it is simply an attempt to address the issue on how everything works.
Wait, are we moving to QM or still talking about theism
@DeadMG So if a particle never encounters anything, it's position is literally indeterminate. Not just, we don't know, but actually it doesn't have a position.
Assume that we are playing a game of Russian roulette (6 chambers). Assume that there is no shuffling after the shot is fired.
I was wondering if you have an advantage in going first?
If so, how big of an advantage?
I was just debating this with friends, and I wouldn't know what probability to...
@RMartinhoFernandes Actually, all we observed is that it was effected at two places at nearly the same time. We can't accurately measure time, or really prove that it was at two places at the same time. Which is part of my annoyance with QT. There's no difference in our observations, with it being in two places, or jumping between two places too fast for us to observe.
Quantum tunnelling refers to the quantum mechanical phenomenon where a particle tunnels through a barrier that it classically could not surmount. This plays an essential role in several physical phenomena, such as the nuclear fusion that occurs in main sequence stars like the sun, and has important applications to modern devices such as the tunnel diode. The effect was predicted in the early 20th century, and its acceptance as a general, physical phenomenon came mid-century.
As a consequence of the wave–particle duality of matter, tunnelling is often explained using the Heisenberg uncert...
@JohannesSchaublitb we actually have already observed electrons with the help of scientific equipment, and we understand how electrons behave well enough to build computers with them.
@Xaade Then you need to add some "lingering effect" entity to your model. I don't know which one is simpler. Also "lingering effect" can't explain delayed choice quantum erasure, which is an experiment where you decide the path of the electron after it took it.
It's quite easy to see it differently. An electron has a center of mass/energy. It's apparent effects radiate from the center. The notion of a particle with a defined position and limit is not accurate.
@RMartinhoFernandes That's the only point that I'm trying to make. That it's possible that our entire understanding is wrong, top to bottom. The inconsistencies at scale make me curiously suspicious. However, "unbelievably unlikely" this notion is.
@Xaade The fact that there are known gaps in our knowledge does not make it wrong. The fact is that QM has very successfully produced incredibly advanced technology and revolutionised our society. If it were wrong, these things wouldn't happen.
@Xaade tell me how many times something fell of by itself defying gravity? Our model is incomplete and sometimes has inaccurate propositions, science expands and fixes those parts.
Matrix given in memory to print the spiral in opposite direction from clockwise (left column down the right lower range, right up column, a series of upper left, etc. until you get to the environment). This works just for dimension 3x3. this should works for mxn dimension. but i don't know how, a...
I think we should register gimme-teh-codez.com and rig it to dump a random 100 lines of linux kernel source, along with the message "If you had a real question, you could ask on stackoverflow.com"
@fabianhjr planets can generate energy if they are constantly changing in size or shape due to gravitational interference, which affects, a lot of things.
@RMartinhoFernandes And there's a few small deviations left. Mercury's orbit with GR has a deviation that's slightly higher than measurement error. Then you have the Pioneer anomaly and Earth-flyby anomalies. All are slight and are pending new research.
@DeadMG We're using different expectations for "wrong". I'm expecting that a theory accurately describes reality. You're expect that a theory reproduces expected results. My point is that a theory doesn't describe reality, it describes a possible reality with identical results.
Yes, to us it takes a long time. But to people that worked for the CIA to establish alliance with the Martian humanoids and animals, like Obama, it's almost instantaneous.
What is a "BS in Computer Science"? I can't help but think "Bullshit in Computer Science", but it's supposed to be some kind of degree. Is that the level right before master's?