Boud, I got your point about those constraints ;)
(Maeybe there arose a little confiusion because I treat everything from the CMB point of view (CMB & rest of the world) as everything else (other methods) were just a kind of supplementary thing, some aid of narrowing our choices in space of parameters.)
When we have a theory describing sth. with some free parameters, it doesnt give any constraints on unknown values until we know the values of those parameters. In that moment measurments enter the scene as some kind of calibration. Then we have a model and can derive whatever we want quantitatively. (e.g. LSS constraint - from assumption on model + "calibration" measurments )
But what if we had such a good theory that it doesnt need any additional measurmenst (except some well known physical constants) (nb measurments that introduce additional uncertanities) to predict the thing we're looking for. That would be a constraint of purely theoretical nature. (e.g. BBN constraint - only from physics of high energy particles - which happens to be more less consistent with constraints from observations of Ly_\alpha forest)
Do you agree with this approach to the word "constraint" in astronomy ?
Bartek
ps. mentioned constraints include h uncertanity (which should be constrained externaly (eg. by SNIa constraint :)) (hmm but in this case I treat SNIa constraint supplementary not equivalently which at the beginning wasn't my intent) Maeybe this is just a nomenclature problem. We cannot deal with all methods of estimating parameters simultanously, so we pick one to ESTIMATE (DERIVE) parameters and then as an additional help treat all other estimations (comming from other methods) as CONSTRAINTS.
I think thats it !
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szajtan wrote:
Boud, I got your point about those constraints ;)
(Maeybe there arose a little confiusion because I treat everything from the CMB point of view (CMB & rest of the world) as everything else (other methods) were just a kind of supplementary thing, some aid of narrowing our choices in space of parameters.)
When we have a theory describing sth. with some free parameters, it doesnt give any constraints on unknown values until we know the values of those parameters. In that moment measurments enter the scene as some kind of calibration. Then we have a model and can derive whatever we want quantitatively. (e.g. LSS constraint - from assumption on model + "calibration" measurments )
But what if we had such a good theory that it doesnt need any additional measurmenst (except some well known physical constants) (nb measurments that introduce additional uncertanities) to predict the thing we're looking for. That would be a constraint of purely theoretical nature. (e.g. BBN constraint - only from physics of high energy particles - which happens to be more less consistent with constraints from observations of Ly_\alpha forest)
Do you agree with this approach to the word "constraint" in astronomy ?
holy grail of physics? gut? theory of everything? that's how they should work. they predict values of all constansts instead on depending on measurements. good way... but at the moment we have only parametrizable theories. :-(
pozdr - michal
Witam,
On Tue, 14 Jan 2003, Michal Frackowiak wrote:
szajtan wrote:
Boud, I got your point about those constraints ;)
(Maeybe there arose a little confiusion because I treat everything from the CMB point of view (CMB & rest of the world) as everything else (other methods) were just a kind of supplementary thing, some aid of narrowing our choices in space of parameters.)
When we have a theory describing sth. with some free parameters, it doesnt give any constraints on unknown values until we know the values of those parameters. In that moment measurments enter the scene as some kind of calibration. Then we have a model and can derive whatever we want quantitatively. (e.g. LSS constraint - from assumption on model + "calibration" measurments )
But what if we had such a good theory that it doesnt need any additional measurmenst (except some well known physical constants) (nb measurments that introduce additional uncertanities) to predict the thing we're looking for. That would be a constraint of purely theoretical nature. (e.g. BBN constraint - only from physics of high energy particles - which happens to be more less consistent with constraints from observations of Ly_\alpha forest)
Do you agree with this approach to the word "constraint" in astronomy ?
My understanding of how the word "constraint" is used in astronomy is that you should still not use the word "constraint" here.
The tradition is to use "constraint" to mean an observational constraint.
You may choose to try to fight this tradition, but often it's not worth the effort to try to change words which are used in a confusing way when the community that uses the words has no wish to make it easy for outsiders to enter into "the priesthood". We still talk about "metals" in astronomy. This was apparently a divergence between astronomers and chemists in the early 20th Century. The chemists won for the general public.
If you really wish to fight ambiguity and lack of clarity, you should try contributing to the http://www.wikipedia.org . This is a community which naturally dislikes ambiguity. In fact, a concept has developed of "disambiguation pages" in wikipedia...
holy grail of physics? gut? theory of everything? that's how they should work. they predict values of all constansts instead on depending on measurements. good way... but at the moment we have only parametrizable theories. :-(
OK, i think here we have a use of language where there is some sort of consensus, at least among "theorists".
"theory" - is the sort of thing we all hope for, a few fundamental principles and laws and constants *imply* everything else.
"phenomenology" - is what happens in practice (it's what i do, mostly), where you have some laws based on theory but with the addition of some simple, though arbitrary laws, motivated from observation, and usually also some arbitrary free parameters. All of this is then compared to observation.
And we then talk about "constraints" on a phenomenological model. This means observational constraints.
If the phenomenological side seems to work correctly, such as the SNeIa method, then it may also "constrain" theory. Once we redo the DE method, we'll hopefully (maybe) have some "constraints" which are clear and robust.
The method itself (SNeIa or comoving standard ruler) is a phenomenological method, but it may constrain theory.
However, among "observers", theory and phenomenology are both called "theory", and the observers wish to "constrain theory".
BTW, Michał just used the word "predict" in the way many people do, to "predict" a value we already have measured. A more careful word that some people now use is "postdict". Or you can simply say "imply", which is a purely logical word, without any connotations on philosophy of science.
Think of "I predict that the ZSRR will collapse around 1989-1991" or "I predict that there will be a major political revolution in France in 1789." Those are not predictions.
pozd boud
PS: Michał - will you be in Piwnice for the http://adjani.astro.uni.torun.pl:9673/zwicky/WinterWorkshop ?
Boud Roukema wrote:
BTW, Michał just used the word "predict" in the way many people do, to "predict" a value we already have measured. A more careful word that some people now use is "postdict". Or you can simply say "imply", which is a purely logical word, without any connotations on philosophy of science.
Think of "I predict that the ZSRR will collapse around 1989-1991" or "I predict that there will be a major political revolution in France in 1789." Those are not predictions.
In the sense that all the "constants" and "parameters" directly follow from the theory without any need for experiment. independently. the theory of everything should e.g. give the values of plank's constant, cosmo constant, grav constant etc... and should not contain any adjustable parameters.
regards - michal
Cześć
On Tue, 14 Jan 2003, Michal Frackowiak wrote:
Boud Roukema wrote:
BTW, Michał just used the word "predict" in the way many people do, to "predict" a value we already have measured. A more careful word that some people now use is "postdict". Or you can simply say "imply", which is a purely logical word, without any connotations on philosophy of science.
Think of "I predict that the ZSRR will collapse around 1989-1991" or "I predict that there will be a major political revolution in France in 1789." Those are not predictions.
In the sense that all the "constants" and "parameters" directly follow from the theory without any need for experiment. independently. the theory of everything should e.g. give the values of plank's constant, cosmo constant, grav constant etc... and should not contain any adjustable parameters.
philosophy of science:
OK, so now you're using "directly follow" and "give" That's fine by me, it's more careful than "predict". :)
theory of everything:
- cosmo constant or quintessence parameter(s) - agree that this(these) should be implied, not axiomatic
- grav constant - disagree - as i see it, it's just a question of units, like converting seconds to metres, or miles to kilometres, or euros to f.francs (1 euro = 6.55957 f.francs exactly)
- Planck's constant - no opinion...
na jutro boud
Boud Roukema wrote:
Cześć
On Tue, 14 Jan 2003, Michal Frackowiak wrote:
Boud Roukema wrote:
BTW, Michał just used the word "predict" in the way many people do, to "predict" a value we already have measured. A more careful word that some people now use is "postdict". Or you can simply say "imply", which is a purely logical word, without any connotations on philosophy of science.
Think of "I predict that the ZSRR will collapse around 1989-1991" or "I predict that there will be a major political revolution in France in 1789." Those are not predictions.
In the sense that all the "constants" and "parameters" directly follow from the theory without any need for experiment. independently. the theory of everything should e.g. give the values of plank's constant, cosmo constant, grav constant etc... and should not contain any adjustable parameters.
philosophy of science:
OK, so now you're using "directly follow" and "give" That's fine by me, it's more careful than "predict". :)
theory of everything:
- cosmo constant or quintessence parameter(s) - agree that this(these)
should be implied, not axiomatic
- grav constant - disagree - as i see it, it's just a question of
units, like converting seconds to metres, or miles to kilometres, or euros to f.francs (1 euro = 6.55957 f.francs exactly
- Planck's constant - no opinion...
just followed M. Heller and some other guys in this matter. not only my own view.
-
Boud Roukema -
Michal Frackowiak -
szajtan