Need Clarification on Uncertainty

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    Uncertainty
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Discussion Overview

The discussion revolves around the Heisenberg Uncertainty Principle (HUP) and its implications for understanding the behavior of subatomic particles, particularly in relation to what can be known about their states when not observed. Participants explore the conceptual boundaries of the HUP and its interpretations, questioning the nature of knowledge regarding particles' activities outside of measurement.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Some participants express confusion about the implications of the HUP, particularly regarding whether we can know what particles are not doing when unobserved.
  • One participant argues that the HUP is not about the impossibility of knowing what particles are doing when not observed, but rather a consequence of the state vector collapse as per von Neumann's postulates.
  • Another participant suggests that, according to the Dirac formulation, particles could theoretically be doing anything when not observed.
  • A different viewpoint emphasizes that while we cannot predict specific outcomes of measurements, we can calculate probabilities of various outcomes, indicating a level of understanding about what particles might be doing.
  • One participant clarifies that the uncertainty principle relates the uncertainties of position and momentum, stating that knowing one limits knowledge of the other, but does not assert that particles have defined states prior to measurement.

Areas of Agreement / Disagreement

Participants exhibit disagreement regarding the interpretation of the HUP and its implications. While some clarify aspects of the principle, others maintain differing views on what can be known about particles when not observed, leading to an unresolved discussion.

Contextual Notes

Limitations in understanding arise from the complexity of quantum mechanics and the interpretations of foundational postulates, which are not universally agreed upon. The discussion highlights the nuances in how uncertainty is conceptualized in quantum theory.

The Rev
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I'm reading "In Search of Shrodingers Cat" by Gribbin, and I've come to the part about the Uncertainty Principle. In describing it, he writes about a subatomic world in which it is impossible to know what particles (such as electrons) are doing when not observed.

My question is, do we have at least some idea of what they are NOT doing? For example, we might not know their momentum, or what their position relative the nucleus might be, but can we at least be sure they aren't having tea parties or smoking dope?

Gribbin makes it sound like they could be spelling out "Humans Suck" when we don't look (or that they might not exist at all), so I need some clarification on what the Principle really means this way.

Thanks.

[tex]\hbar[/tex]

The Rev
 
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The HUP doesn't have anything to do with "it is impossible to know what particles (such as electrons) are doing when not observed".That is a consequence of von Neumann's 5-th postulate (the state vector collapse).


Daniel.
 
dextercioby said:
The HUP doesn't have anything to do with "it is impossible to know what particles (such as electrons) are doing when not observed".That is a consequence of von Neumann's 5-th postulate (the state vector collapse).


Daniel.

Just goes to show how little I understand what I'm reading. However, you really didn't answer my question. Do we have some idea what these particles are doing, or could it literally be ANYTHING?

[tex]\oint[/tex]

The Rev
 
Literally,according to the 5+1 postulates in the Dirac/traditional/vectors and operators formulation,ANYTHING.

Daniel.
 
Damn!

Thanks, I think...

*Considering the number of subatomic particles in his body, The Rev fears the worst... (insert picture of 400 quadrillion particles smoking crack and watching Fear Factor here)

[tex]\infty[/tex]

The Rev
 
There's no other logical interpretation of that 5-th postulate.It's part of the axiomatical structure.Refute it,and u refute the whole theory...

Daniel.
 
The uncertainty means that, if we measure a physical quantity, we do not know for certain what the outcome will be. Suppose we setup an experiment to prepare an electron in a certain way and we measure its position (and note the result down). If we do the exact same experiment (under identical conditions) and measure the position the same way as before we might find something different. So we cannot say with certainty what the result of a measurement will be beforehand (there are some exceptions of a technical nature).
But you are right, we have some idea of what they are NOT doing (and thus some idea of what they ARE doing) in the following sense: We cannot know exactly what the result of a measurement will be, but we CAN know what the probability will be of getting a certain outcome (if you throw a die, you know you won't get a 7, but you'll get 1,2,3,4,5 or 6 with some probability. This probability is of a different nature, but it illustrates the idea). So it's not like we cannot calculate anything anymore.

This is uncertainty in QM in general. The uncertainty principle is a little different. Heisenberg's original uncertainty principle gives a relation (we can quantify uncertainty) between the uncertainty of a position of a particle and its momentum. As I said, we CAN calculate the probability we get a specific result. The uncertainty principle says that if we know that the probability of finding a particle in a certain small region of space is very high, almost one (the probability distribution for the particle's position is highly peaked at a certain point), then a measurement on the particle's momentum can give very large varying results (the probability distribution for the particles momentum has a wide spread). The converse is also true ofcourse. This is what Heisenberg's uncertainty principle says.

In 'layman terms': "If we know where the particle is, we don't know it's momentum."
The problem with that sentence is that here you're assuming the particle really HAS a position and a momentum before we measure it, but that's another story. QM makes no hypothesis on this matter, it just tells you how to calculate things and it always works out.
 
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