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It is in [0,1].Demystifier said:OK, then let my try something completely different. I flip the coin twice, and I obtain the result:
heads, heads
What is the probability of getting heads? Can probability be assigned in that case?
It is in [0,1].Demystifier said:OK, then let my try something completely different. I flip the coin twice, and I obtain the result:
heads, heads
What is the probability of getting heads? Can probability be assigned in that case?
So is there any case in science where one can assign definite probabilities, without performing an infinite number of experiments?A. Neumaier said:It is in [0,1].
A. Neumaier said:In the absence of further knowledge both choices are rational. There is no way to compare the quality of the choices except by waiting for the consequences. To make choices, no concept of probability is needed.
Assuming that probabilities have definite (infinitely accurate) values is as fictitious as assuming the length of a stick to have a definite (infinitely accurate) value. Science is the art of valid approximation, not the magic of assigning definite values.Demystifier said:So is there any case in science where one can assign definite probabilities, without performing an infinite number of experiments?
Only about aleatoric uncertainty. This is the consensus of modern researchers in uncertainty quantification. Se the links given earlier.stevendaryl said:probabilities provide a coherent way to reason about uncertainties.
OK, then please use this scientific practice to determine probability in my post #90.A. Neumaier said:Assuming that probabilities have definite (infinitely accurate) values is as fictitious as assuming the length of a stick to have a definite (infinitely accurate) value. Science is the art of valid approximation, not the magic of assigning definite values.
One uses statistics to assign uncertain probabilities according to the standard rules, and one can turn these probabilities into simple numbers by ignoring the uncertainty. That's the scientific practice, and that's what theory,
and standards such as NIST, tell one should do.
You don't need to teach me how to reason successfully about uncertainty. Our company http://www.dagopt.com/en/home sells customized software that allows our industrial customers to save lots of money by making best use of the information available. They wouldn't pay us if they weren't satisfied with our service.stevendaryl said:If you don't, then you can become the victim
Respectable scientists are no fools that would determine probabilities from the information you gave.Demystifier said:OK, then please use this scientific practice to determine probability in my post #90.
OK, what is the minimal amount of information that would trigger you to determine probabilities? How many coin flips is the minimum?A. Neumaier said:Respectable scientists are no fools that would determine probabilities from the information you gave.
A. Neumaier said:Only about aleatoric uncertainty. This is the consensus of modern researchers in uncertainty quantification. Se the links given earlier.
Are you so ignorant about statistical practice? It depends on the accuracy you want.Demystifier said:OK, what is the minimal amount of information that would trigger you to determine probabilities? How many coin flips is the minimum?
A. Neumaier said:Respectable scientists are no fools that would determine probabilities from the information you gave.
You are smart, but I am smart too.A. Neumaier said:Are you so ignorant about statistical practice? It depends on the accuracy you want.
A. Neumaier said:Are you so ignorant about statistical practice? It depends on the accuracy you want.
In other words, all you have is the probability of probability of probability of probability of ...stevendaryl said:There is never a point when you know that your probability estimate is accurate. There is never a point when you can say with certainty: "The probability of heads is between [itex]45\%[/itex] and [itex]55\%[/itex]."
We developed uncertainty software for ESA - see Robust and automated space system design for a related publication.stevendaryl said:sending someone to Mars [...] What do we do?
Physics is never about certainty but about the art of valid approximation.stevendaryl said:There is never a point when you can say with certainty
A. Neumaier said:We developed uncertainty software for ESA - see Robust and automated space system design for a related publication.
The way of arriving at a design that is acceptable to all parties that have a say is a far more complex process than assigning of faulty probabilities to epistemic uncertainties.
A. Neumaier said:Physics is never about certainty but about the art of valid approximation.
I'll never assign definite probabilities. probabilities are always estimates, with an intrinsic uncertainty.Demystifier said:You are smart, but I am smart too.
I want the minimal possible accuracy that will trigger you to assign some definite numbers as probabilities.
This is why physics is slightly in flux, and why these are sometimes controversies.stevendaryl said:But there is no point where you know that your approximation is valid.
A. Neumaier said:I'll never assign definite probabilities. probabilities are always estimates, with an intrinsic uncertainty.
Yes, as everywhere in life. Including in science.stevendaryl said:That doesn't mean it is more accurate or more rational. The actual process is as much about psychology (reassuring all interested parties) as it is dealing with uncertainty.
OK, then just estimate probabilities, with the lowest possible accuracy, for the lowest possible number of coin flips. Can you perform such a lowest possible task?A. Neumaier said:I'll never assign definite probabilities. probabilities are always estimates, with an intrinsic uncertainty.
Indeed. There is no certainty about real numbers obtained from experiment. It is never like ##\pi## or ##e## or ##\sqrt{2}##.stevendaryl said:the assignment of uncertainty is itself uncertain.
Play this game by yourself, using a book on elementary statistics!Demystifier said:OK, then just estimate probabilities, with the lowest possible accuracy, for the lowest possible number of coin flips. Can you perform such a lowest possible task?
Demystifier said:OK, then just estimate probabilities, with the lowest possible accuracy, for the lowest possible number of coin flips. Can you perform such a lowest possible task?
Are you a politician? (Never giving a direct answer to a tricky question.)A. Neumaier said:Play this game by yourself, using a book on elementary statistics!
To a physically meaningless question.Demystifier said:to a tricky question
Sure, but I want to force Neumaier to admit that sometimes Bayesian methods make more sense. But he's smart, he understands what I am trying to do, so that's why he doesn't answer my questions.stevendaryl said:That's not actually what you want to know, but it's the best you can get, using frequentist methods.