Information-Based Physics and the Influence Network by Kevin H Knuth

Hello Kevin,

I like your abstract and only had time to scan over and read the conclusion. I'll look more thoroughly later in the week. However, I like very much what I see based on embedded observers and that you seem to decide It from Bit and bit from It.

I look forward to reading in full and would be honoured if you had a chance to read my essay.

Kind regards,

Antony

Kevin

"Knowledge about any property that does not affect how an electron exerts influence is inaccessible to us"

This focuses on the issue of what constitutes physical existence, although it is not affected by the subsequent processing (eg observation). Put the other way round, the physical circumstance exists whether or not it is sensed, sensing just invokes a perception of it.

So, in respect of any aspect of existence, the differentiation between existent and not-existent, for us, is knowability, which is the function of a physical process. That is, we (and all sentient organisms) receive physical input and are thereby enabled to be aware of it. Thus what constitutes physical existence for us is limited by what we could be aware of. Which may or may not encompass 'everything', but we can never know that, so that is irrelevant. That is, physical existence is all that which is potentially knowable (ie available to be sensed). The extent to which we can capture any of this, and then process it comprehensively and accurately, is another issue. The key point is potentiality. Now, this does not have to be substantiated by confirmed (ie not individualistic) direct experience. Operating within the rules of sensing and on the basis of validated direct experience, it is possible to hypothesise. In effect then, hypothesis is virtual sensing, ie it is not belief creation. It discerns what could have been sensed had certain identifiable issues not prevented that.

So, if an electron is pink, or more generally, if a physical characteristic 'actually' exists, but it is not manifest, ie has no physical effect AND is not detectable of itself, then that characteristic is non-existent. Although an unlikely circumstance, one has to include the possibility that whilst a physical characteristic might not exert any influence it may react in a way which enables its manifestation. Which is an influence, but not in the context of the existential sequence (ie where it is inert), but in the physical interactions which enable the creation of a physically existent representation of it. A statement of the blindingly obvious, ie we can see it bit it doesn't do anything!

"Since we cannot know what an electron is, perhaps it is best to simply focus on what an electron does".

This is also an important differentiation, ie between physical substance and the physically existent state thereof. Any reality is the physically existent state of whatever comprises it at any given time. In other words, a reality is the function of the state, which is caused to alter. So focussing on what is happening, rather than 'things' as such, is the correct approach.

Paul

Kevin,

Your focus on behavior properties are indeed fundamental, as such, serve to embed a network of influences. You closing statement, "The conceptual difficulties with quantum complementarity are eliminated when we consider these quantities to be descriptions of what a particle does rather than properties possessed by the particle." I find to be in harmony with my findings. Although my approach is vastly different than yours, I have found that quantum complementarity to be primarily an issue of perspective.

I invite you to review my findings and rate my essay when you get the chance:

http://fqxi.org/community/forum/topic/1809

Good luck with your entry of which I have rated highly..

Regards,

Manuel

Respectfully Professor Knuth,

Please excuse me, I am a decrepit old self-taut (thinking makes me tense) realist. I do not intend this observation to be taken critically, but like all of the physicists who have submitted essays to this site, you have also omitted a vital piece of information one should know about.

You wrote, "We imagine an observer to possess a precise instrument, which has access to and can count the events along a given particle's chain²"

As I have soberly explained in my essay BITTERS, the real Universe is unique, once. Everything in the real Universe must be unique, once. Any instrument no matter how precise it is cannot measure Unique. Unique cannot be counted for unique only happens once. Some real observer using unique eyes can observe Unique once.

Kevin

"...Since we cannot know what an electron is, perhaps it is best to simply focus on what an electron does".

Ah now that is a different way of putting it, and is not correct. We can know what something is, if that something is within the ambit of our physical existence, ie is potentially detectable (knowable). So, going back to your example, we can know an electron, but will not know that it is pink, if that characteristic is no in way manifest in a way that is detectable by us. This is despite the fact that it may 'actually' be pink. But the point is we can only consider what is potentially knowable (testable was your phrase). If one calls that A, then there is always the possibility of not-A, which cannot be known, and may include 'really' existent properties or 'made up' ones (beliefs).

The significance of what an electron, or indeed anything, does, is that that concentrates on what is manifest, ie within our physical existence. In other words, you arrive at the right starting point. Now, any given reality is a physically existent state of whatever comprises it. So I cannot agree with postulate 2, and as written, 3 & 4. Because A is an influence which results in B. It does not influence B, because at the time of existence of A, B does not exist. Neither does A 'influence' C, B was the 'influence'.

The point about sequence is that only one state exists at a time, the predecessor must cease to exist for the successor to exist. So the two 'events', which are really any two consecutive states in the sequence, are not 'experienced by a particle'. [I would not use the word particle anyway, because that is somewhat narrow in its meaning]. Because the 'particle', or more precisely the physically existent state of whatever is not existent in the subsequent state. A difference is a difference.

That exposes two common, and understandable flaws in the fundamental way we view reality. First the importance of sequence is that there is only one of whatever constitutes it. Second, and interrelated to the first, physically, 'things' do not exist (until obviously one differentiates down to singular physically existent states which must comprise of something). That is, there is a tendency to invoke a thing, and then conceive of it as changing. But this is a contradiction. If it has changed, then it is not what it was, it is different. Your 'particle' would have to be an inert something in order to 'experience (ie be existent in) more than one state. This is why I speak of physically existent states.

The reason that QM and relativity are wrong as models of physical existence (Questions like, "Why can't we know the particle's position and momentum...) is because physical existence (ie a reality) is a discrete, definitive physically existent state of whatever comprises it. It must be. Existence, as far as we are concerned, and the start point was this is science not religion (potentially detectecyable/testable & not so) involves physical presence, and that can only occur in a definitive and discrete form. QM and relativity, whether or not it was the authors intentions, effectively asserts some form of indefiniteness in physical existence. Which is incorrect. Which is why there then has to be a plethora of flawed rationalisations to keep the theories 'on track'. One being the supposed influence of observation on the physical circumstance, which is nonsense, as it cannot happen.

I will stop there otherwise this will get too long.

Paul

Dear Kevin,

Yours is a commendable striving to discern fundamental particle behavior. However, since you talk of 'influence others', 'network' I presume you imply interactions in space. Can the true nature of such be well described without first deciphering the nature of space?

I commend the following for your contemplation,

The Pythagoreans say: Space is a composite of monads and geometry is the study and science of space.

Leibniz says: monads are the true atoms of Nature - the elements out of which everything is made. He also says I think there is no empty space--the extended world is entirely full, a plenum.

Newton opines:...And my account throws a satisfactory light on the difference between between a body and a region of space. The raw materials of each are the same in their properties and nature, and differ only in how God created them. (By this he meant that the only difference is that while body was created by God, the other, space was eternal and not created).

Wheeler asks: What else is there out of which to build a particle except geometry itself?

Then going further,

Leibniz says: Within a monad there's nothing to re-arrange, and there is no conceivable internal motion in it that could be started, steered, sped up, or slowed down, as can happen in a composite thing that has parts that can change in relation to one another.

So we can say that the only way for monads to begin or end--to come into existence or go out of existence - is instantaneously, being created or annihilated all at once. Composite things, in contrast with that, can begin or end gradually, through the assembling or scattering of their parts.

So from the foregoing, coming to the two alternate states available to the monad, the fundamental 'it', what states that can be designated 0 and 1... which will be the binary states (the bit)?

Paul Reed in his first post above talks of existent/non-existent although I am not sure he buys the ideas I put forward in my essay.

Best regards and good luck,

Akinbo

Hi dear Kevin,

I enjoyed read your attractive essay being on the certainly opposite position!

Whatever you are doing it maybe really useful and right from applied point of view. However, you can be agree with me that such approach can not be productively for the cognitively investigation of events. It is the main lack of formal methodology at all, which however looks now as the inevitable reality.

You say ,,Since we cannot know what an electron is, perhaps it is best to simply focus on what an electron does,, Excuse me! - you can not, but maybe somebody will able to say you what itself is presented the electron and how it shows its known attributes/properties? I mean why we must declare something as impossible since we cannot do it? I want simply say you it really is possible, that however demand totally change our imagination about how to need to build the science!

I will put on your essay (8) point because it really written by master!

Hope you can have the patience to check my work (mainly the references) and appreciate it. http://fqxi.org/community/forum/topic/1804

ESSAY

Best wishes to you,

George

Dear Kevin,

You say:

1. We can only know about something if it influences us (directly or indirectly).

2. Therefore, if an entity has properties that do not affect how it influences others, there is no way for anyone to obtain information about those properties etc.

You have put such points as finitely. Mostly you are right but there is another way that the science does not recognize now as a method! It however works in life more often and successfully! A talk is about of guesswork.

We may to predict at the beginning that we will face with impossibility to make new experiments/measurements when we will reach to base elements of substance. (We will just annihilate it or deeply damage it if we try to influence with that! Here I think no need big explanatory). That we have faced actually!

So what we can do in this situation? We know there exist something actually (for example photon or electron) that we cannot touch or seen, because restriction of influence with those?

I suggest to build the imaginary model of primarily objects, on the base of known natural laws, by condition of correspondence of our model with the all known properties/attributes of real objects. (I mean on the base of model and basic laws must be possible the derivation of its all known properties!)

You can immodestly ask - how we can be convinced that our model is right?

The answer is - no direct way as before, but we just must believe to our model up on the mentioned same criterions, i.e. - 1) it is constructed on the base of well-tested laws and 2) It corresponds to all properties of investigated object without exception. Third and next confirmations of our model will came from successes of its future development ...

Please find time (after of FQXi battle!) and check on my works (references in essay) I very hope that a lot of questions will be solved for you (because you are scientist who are inclined to analytical judgement) If there will be big questions I am ready to discuss and will thankfull for your remarks.

Thank you for good score of my essay!

Best wishes,

George

Dear Kevin,

Thank you for presenting your nice essay. I saw the abstract and will post my comments soon. Can we produce material just by thinking about it?

I am requesting you to go through my essay also. And I take this opportunity to say, to come to reality and base your arguments on experimental results.

I failed mainly because I worked against the main stream. The main stream community people want magic from science instead of realty especially in the subject of cosmology. We all know well that cosmology is a subject where speculations rule.

Hope to get your comments even directly to my mail ID also. . . .

Best

=snp

snp.gupta@gmail.com

http://vaksdynamicuniversemodel.blogspot.com/

Pdf download:

http://fqxi.org/community/forum/topic/essay-download/1607/__details/Gupta_Vak_FQXi_TABLE_REF_Fi.pdf

Part of abstract:

- -Material objects are more fundamental- - is being proposed in this paper; It is well known that there is no mental experiment, which produced material. . . Similarly creation of matter from empty space as required in Steady State theory or in Bigbang is another such problem in the Cosmological counterpart. . . . In this paper we will see about CMB, how it is generated from stars and Galaxies around us. And here we show that NO Microwave background radiation was detected till now after excluding radiation from Stars and Galaxies. . . .

Some complements from FQXi community. . . . .

A

Anton Lorenz Vrba wrote on May. 4, 2013 @ 13:43 GMT

....... I do love your last two sentences - that is why I am coming back.

Author Satyavarapu Naga Parameswara Gupta replied on May. 6, 2013 @ 09:24 GMT

. . . . We should use our minds to down to earth realistic thinking. There is no point in wasting our brains in total imagination which are never realities. It is something like showing, mixing of cartoon characters with normal people in movies or people entering into Game-space in virtual reality games or Firing antimatter into a black hole!!!. It is sheer a madness of such concepts going on in many fields like science, mathematics, computer IT etc. . . .

B.

Francis V wrote on May. 11, 2013 @ 02:05 GMT

Well-presented argument about the absence of any explosion for a relic frequency to occur and the detail on collection of temperature data......

C

Robert Bennett wrote on May. 14, 2013 @ 18:26 GMT

"Material objects are more fundamental"..... in other words "IT from Bit" is true.

Author Satyavarapu Naga Parameswara Gupta replied on May. 14, 2013 @ 22:53 GMT

1. It is well known that there is no mental experiment, which produced material.

2. John Wheeler did not produce material from information.

3. Information describes material properties. But a mere description of material properties does not produce material.

4. There are Gods, Wizards, and Magicians, allegedly produced material from nowhere. But will that be a scientific experiment?

D

Hoang cao Hai wrote on Jun. 16, 2013 @ 16:22 GMT

It from bit - where are bit come from?

Author Satyavarapu Naga Parameswara Gupta replied on Jun. 17, 2013 @ 06:10 GMT

....And your question is like asking, -- which is first? Egg or Hen?-- in other words Matter is first or Information is first? Is that so? In reality there is no way that Matter comes from information.

Matter is another form of Energy. Matter cannot be created from nothing. Any type of vacuum cannot produce matter. Matter is another form of energy. Energy is having many forms: Mechanical, Electrical, Heat, Magnetic and so on..

E

Antony Ryan wrote on Jun. 23, 2013 @ 22:08 GMT

.....Either way your abstract argument based empirical evidence is strong given that "a mere description of material properties does not produce material". While of course materials do give information.

I think you deserve a place in the final based on this alone. Concise - simple - but undeniable.

Hi Kevin,

I like many others before me pick up with your opening sentence ' I know about the universe because it influences me ' I would rather argue that you observe the universe because of it's influence it has. Knowing and understanding is an abstract process of human thought resulting from the observation. This abstractness allows one to build new models and postulate new method, as you have done in your essay, but is it closer to reality? We will never know for certain.

You relate your Equation-5 to formulations of special relativity. May I ask a simple question assuming you did not know about special relativity would you have come up with the formulations and ideas preceding Equation-5? or was it rather knowing the result and finding an alternate way to it.

We also know about the Michelson-Morley experiment, but do we really understand it? I would argue no. Please read my very short essay I really seek an answer to the paradox.

Kevin, I read your essay and liked your discipline of staying within an observation based model. It is interesting that so much familiar physics comes from observed influences alone. The new perspective you mention is the information (bit) that can be inferred about observed physical reality (it) if I understand your essay correctly.

I believe we can and must go further. I share your interest in the foundations of physics and entered the last contest with an essay entitled "A top down approach to fundamental forces". It shows the informational basis (code or bit) for what an electron is (along with all the other particles) and the informational basis for the influences that are observed. Results of the model give us the cosmology we observe (papers are posted under this years essay "It from Information"). Someday, sometime, someone needs to take the time to interact with me about this work.

Dear Kevin,

I was pleased to read your essay. I am happy to see your networks of influence approach applied here to relativity and quantum mechanics, and how you discuss the "it from bit" question. I particularly liked the conclusion "Rather than thinking about the universe as a computer, perhaps it is more accurate to think about it as a network of influences where the laws of physics derive from both consistent descriptions and optimal information-based inferences made by embedded observers."

Best regards,

Cristi Stoica

Hi Kevin -

This is a very fine essay, and I found a lot to agree with in your approach. I appreciate it that you make your assumptions so clear as you go through your argument, acknowledging that other routes might also be possible. And it's impressive how much you can derive from a very simple model of interaction.

I think your basic argument is important - that is, since everything that can be observed consists of "influences", we lose no empirical information if we describe only the structure of influences themselves, without assuming this structure is due to any definite underlying properties of things.

Of course it's vastly more efficient to describe what a thing is in itself, with all its properties, than to describe all the different ways it influences other things, in different contexts. But since at the quantum level, the "thing in itself" is so problematic, it's important that we can in principle do without that notion. But then we're faced with the difficulty of conceptualizing the structure of influences in some way.

Your approach to this is essentially the opposite of the one I take in my essay. You want to abstract from all the many kinds of influences that constitute the observable world, to see what kind of structure can be derived from basic postulates about "influence" in general. And while some of your assumptions seem questionable, I think you've demonstrated that a lot of basic physics is already implicit in a radically simplified structure of things observing other things.

My approach may be complementary to yours. You say, "we do not need to know how a particle influences others - just that it does - to obtain these relevant physical variables with their expected relations." But in fact, we know a vast amount about how different kinds of things affect each other. In fact, per your basic argument above, that's really all we know, in physics - this structure of influences. But for reasons I explain in my essay, we haven't yet learned how to describe this type of structure effectively. So by default, our theories are still cast in the language of things (particles, fields, spacetime) that posses intrinsic properties.

I argue that the reason it's been so hard to conceptualize the structure of observable information is because things "influence" each other in so many different ways, and because every way things interact only results in observable information in an appropriate context set up by other kinds of interactions. Rather than trying to reduce this complex contextual structure to something simple and abstract, I'm suggesting that its complexity can be explained as the result of an evolutionary process.

Taking a line of thought similar to your basic argument, I note that all observable information is definable in terms of other observable information, whether or not there's any underlying reality of things-in-themselves. But this implies that the structure of "influences" as a whole constitutes a very special kind of self-defining system, which I argue could be subject to a form of natural selection.

Since this idea suggests that our current physics may have evolved from much simpler structures of influence, the sort of construction you undertake in your essay seems quite relevant and interesting.

Thanks - Conrad