What is the reason for the Emergence of properties?

In summary: But if you zoom in close enough, you can see the individual molecules. In summary, water molecule has different properties from either oxygen or hydrogen atom.
  • #1
Deepak K Kapur
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Water molecule has different properties from either oxygen or hydrogen atom.

My question is 'Are these properties of water molecules totally new or were these properties already lurking around in the oxygen and hydrogen atoms?'

Thanks.
 
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  • #2
It's hard to judge that but both hydrogen and oxygen are in many other molecules whose properties are nothing like water. So I think it would be reasonable to say they are properties of the way the water molecule is formed, rather than the individual atoms.
 
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  • #3
Deepak K Kapur said:
My question is 'Are these properties of water molecules totally new or were these properties already lurking around in the oxygen and hydrogen atoms?'
How would you experimentally test the difference between these two options? I.e. What experiment would yield X if "the properties are totally new" or yield Y if "the properties are already lurking around".
 
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  • #4
Deepak K Kapur said:
Water molecule has different properties from either oxygen or hydrogen atom.

My question is 'Are these properties of water molecules totally new or were these properties already lurking around in the oxygen and hydrogen atoms?'

Thanks.
I am not sure exactly what you want to know but I will hazard a guess.
You appear to be asking about the way that molecular bonding and reactivity works. It depends upon the relative energies binding the outer electrons to individual (separate) atoms and the energies binding atoms together in a molecule.
Look at the reactivities of elements in a particular group of the periodic table. Groups 1 and 7 are the easiest to discuss. They all have the same number of outer electrons (Group 1) or 'missing electrons' (Group 7) in the shells and behave in a similar way, chemically, but the presence of more inner shells as you go down the group affects the reactivity because of the shadowing effect between the + Nucleus and any nearby electrons. Group 1 get more reactive and Group 7 become less reactive for the lower periods.
Those basic energies are 'built in' for each element and so they will be mirrored in the mechanical strengths or reactivities of molecules they are part of.
 
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  • #5
Deepak K Kapur said:
Water molecule has different properties from either oxygen or hydrogen atom.

My question is 'Are these properties of water molecules totally new or were these properties already lurking around in the oxygen and hydrogen atoms?'

Thanks.

I know that you are talking about just 3 atoms forming a molecule here, but maybe this is a good jumping point for you to discover another new aspect of our world that Phil Anderson touted many years ago: More Is Different.

Zz.
 
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  • #6
I think as a general rule a compound has entirely different properties to the atoms from which is built. Consider the highly reactive and dangerous metal sodium and the highly reactive and dangerous gas chlorine. When the two react together you get the relatively benign compound sodium chloride what you sprinkle on your fish and chips.
 
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  • #7
Dadface said:
I think as a general rule a compound has entirely different properties to the atoms from which is built. Consider the highly reactive and dangerous metal sodium and the highly reactive and dangerous gas chlorine. When the two react together you get the relatively benign compound sodium chloride what you sprinkle on your fish and chips.
With a hundred or more elements to choose from, there will be many different of examples of compounds - some of which follow and some which go against the idea. My point was that, as you go down the group, the resulting products are similar but the details of their different properties are reflected by the period of Element X in the molecule XYZ. For instance, it is easier to isolate Lithium back from Lithium Oxide than it is to get back Rubidium from Rubidium Oxide. The differences from group to group are probably a lot harder to identify but there are examples where adding a different element to, say, steel, will alter its properties. Carbon Chemists can supply examples of how adding an odd atom of an element can change the properties of a plastic.

I guess the point should be made, for the OP, that the 'Properties' and the "lurking" are very much nuts and bolts things are often not too hard to identify for a Chemist. (Of which I am not one, for what it's worth.)
 
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  • #8
Thanks everyone for judicious answers...

What I wanted to ask is actually very laymanish...

Suppose, I have a large structure through which I can move and so on. But when I go up and get a bird's eye view of the same structure, I get to see a pattern/shape which was not visible from the ground.

Is this pattern/shape an emergent property of the structure ? My question was of this connotation...
 
  • #9
Deepak K Kapur said:
Is this pattern/shape an emergent property of the structure
There is one common example of what you seem to be implying. The basic shape of the molecules in a crystal have a direct bearing on the shape and symmetries of that crystal.
 
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  • #10
Deepak K Kapur said:
Is this pattern/shape an emergent property of the structure ?
What experiment could you perform that would yield X if it is an emergent property or Y if it is not?

I am not asking this to be a pain. It is an important mental step that is necessary in order for you to think about your own question scientifically.
 
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  • #11
Picking the right property, Y, is critical. The answer probably depends on the property.

For certain properties, there might be known explanations that can answer the question without needing to define a test.
 
  • #12
Dale said:
What experiment could you perform that would yield X if it is an emergent property or Y if it is not?

I am not asking this to be a pain. It is an important mental step that is necessary in order for you to think about your own question scientifically.

I can't think of any such experiment.

So, do you mean to say the answer is unknowable?
 
  • #13
Deepak K Kapur said:
I can't think of any such experiment.

So, do you mean to say the answer is unknowable?
No, I mean to say that the question is not about physics or nature. The question is a philosophical question. You can define the terms like "emergent" and "property" such that you get any answer you like, and it doesn't change anything physical, it just changes your philosophical approach.

So, now that you understand that the question is philosophical, you can start thinking through the question and answers. Do you want a particular answer? If so, then concentrate on defining "emergent" and "property" such that you get your desired answer. If not, then you will need to pick some other way of defining your terms, and then see the logical consequences.
 
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  • #14
Dale said:
No, I mean to say that the question is not about physics or nature. The question is a philosophical question. You can define the terms like "emergent" and "property" such that you get any answer you like, and it doesn't change anything physical, it just changes your philosophical approach.

So, now that you understand that the question is philosophical, you can start thinking through the question and answers. Do you want a particular answer? If so, then concentrate on defining "emergent" and "property" such that you get your desired answer. If not, then you will need to pick some other way of defining your terms, and then see the logical consequences.

Thanks for a brilliant answer...

But in physics also we surely talk about emergent properties that are related to structure of atoms /molecules.

And they ain't philosophical questions.
 
  • #15
I'm not sure it's a term I have ever used. There is a fuzzy sort of relationship between the atomic and bulk properties but there will be many exceptions so I wonder whether it is worth while spending too much time on it.
If there were a strong correlation then it could help with Chemical Engineering - like adding element Y to a whole range of plastics to give them all improved strength or higher melting points. I would guess that many people will have tried to formalise that sort of process; it would be worth a lot of money.
 
  • #16
Deepak K Kapur said:
But in physics also we surely talk about emergent properties that are related to structure of atoms /molecules
You may want to refer to those sources where you have heard about emergent properties related to the structure of atoms and see if they clearly define any of the relevant terms.

Deepak K Kapur said:
And they ain't philosophical questions.
If there is not an experiment to make the distinction then it is philosophical. Experiment is the key differentiator between philosophy and science.
 
  • #17
Dale said:
You may want to refer to those sources where you have heard about emergent properties related to the structure of atoms and see if they clearly define any of the relevant terms.

If there is not an experiment to make the distinction then it is philosophical. Experiment is the key differentiator between philosophy and science.

I have thought of an experiment (unless you rubbish it)

Let's take a quantum field. There is no excitation in it (suppose).

Then someone observes it and the excitation of the quantum field gets manifested in the form of an elementary particle.

To my mind this is the experimental proof of an emergent property. In other words the elementary particle in question is the emergent property of the underlying quantum field.

Does this make sense?
 
  • #18
Deepak K Kapur said:
I have thought of an experiment (unless you rubbish it)

Let's take a quantum field. There is no excitation in it (suppose).

Then someone observes it and the excitation of the quantum field gets manifested in the form of an elementary particle.

To my mind this is the experimental proof of an emergent property. In other words the elementary particle in question is the emergent property of the underlying quantum field.

Does this make sense?
So for clarity, any interaction which increases the number of fundamental particles demonstrates an emergent property of the original system? Is that correct

What about interactions which reduce the number of fundamental particles? What about interactions that preserve the number of fundamental particles but change their type?
 
  • #19
Deepak K Kapur said:
Then someone observes it and the excitation of the quantum field gets manifested in the form of an elementary particle.

Does this make sense?

No. Observation doesn't make particles appear out of nowhere.

Deepak K Kapur said:
To my mind this is the experimental proof

It's not a proof of anything, nor is it an experiment.
 
  • #20
Dale said:
What about interactions which reduce the number of fundamental particles? What about interactions that preserve the number of fundamental particles but change their type?

I think these also would be called emergent properties because something has happened to the quantum field that was not there before.
 
  • #21
Deepak K Kapur said:
I think these also would be called emergent properties because something has happened to the quantum field that was not there before.
What was not there before? It is not clear from your sentence.

Deepak K Kapur said:
To my mind this is the experimental proof of an emergent property. In other words the elementary particle in question is the emergent property of the underlying quantum field.
It seems that your definition of "emergence" is not quite the usual one in science and philosophy. Would you consider ice an emergent "property" of water?
https://en.wikipedia.org/wiki/Emergence
 
  • #22
Deepak K Kapur said:
I think these also would be called emergent properties because something has happened to the quantum field that was not there before.
This seems like an odd definition of emergent properties that I have not seen elsewhere. But it is just a definition, so OK.

Then water would have no emergent properties since it is the same number and kind of fundamental particles as water or as separate hydrogen and oxygen atoms. That doesn't bother me, but I am not sure that is what you really want.

It may be best to check the literature and use standard definitions
 
  • #23
Dale said:
This seems like an odd definition of emergent properties that I have not seen elsewhere. But it is just a definition, so OK.

Then water would have no emergent properties since it is the same number and kind of fundamental particles as water or as separate hydrogen and oxygen atoms. That doesn't bother me, but I am not sure that is what you really want.

It may be best to check the literature and use standard definitions

I have checked the standard definitions. These call turbulence, temperature, pressure Etc. as emergent properties.

I am just a layman but I think I am also saying the same thing.

I think 'something happening' to the quantum field is the 'fundamental' emergence. All other cases of emergence (e.g water) are just cases of secondary /tertiary emergence, IMHO.
 
  • #24
Deepak K Kapur said:
I have checked the standard definitions. These call turbulence, temperature, pressure Etc. as emergent properties.
I don't see how that fits with your definition. Turbulent flow and laminar flow of the same fluid should have the same numbers and types of fundamental particles. So per your definition it would not be emergent, in contrast to the standard usage.
 
  • #25
Humpty Dumpty smiled contemptuously. 'Of course you don't — till I tell you. I meant "there's a nice knock-down argument for you!"'

'But "glory" doesn't mean "a nice knock-down argument",' Alice objected.

'When I use a word,' Humpty Dumpty said, in rather a scornful tone, 'it means just what I choose it to mean — neither more nor less.'

'The question is,' said Alice, 'whether you can make words mean so many different things.'

'The question is,' said Humpty Dumpty, 'which is to be master — that's all.'

Alice was too much puzzled to say anything; so after a minute Humpty Dumpty began again. 'They've a temper, some of them — particularly verbs: they're the proudest — adjectives you can do anything with, but not verbs — however, I can manage the whole lot of them! Impenetrability! That's what I say!'

Can we please use standard definitions?
 
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  • #26
Dale said:
I don't see how that fits with your definition. Turbulent flow and laminar flow of the same fluid should have the same numbers and types of fundamental particles. So per your definition it would not be emergent, in contrast to the standard usage.

I am a nobody to coin any kind of definition...
It's just my curiosity that may be getting annoying for people here.

I think emergence does not /should not mean the same numbers and same types of fundamental particles...

It means /should mean the occurrence /creation of something/some property that was not previously there. For example the occurrence /creation/change /destruction etc. of particles from the quantum field when an observation is made.

The main thing here is that firstly a process/property was completely absent and then there it was. This is emergence to my simple mind (simplicity/complexity/variety /sameness etc. of the process is not an issue here) .

Again, this is not vanity but plain curiosity.
 
  • #27
Deepak K Kapur said:
The main thing here is that firstly a process/property was completely absent and then there it was. This is emergence to my simple mind (simplicity/complexity/variety /sameness etc. of the process is not an issue here) .
But that's not the standard definition. One cannot determine the definition of a phrase by thinking about what the words normally mean separately and then guessing at a meaning that they have when put together. The phrase "emergent property" has a standard definition that does not involve something coming into existence over time.
 
  • #28
jbriggs444 said:
But that's not the standard definition. One cannot determine the definition of a phrase by thinking about what the words normally mean separately and then guessing at a meaning that they have when put together. The phrase "emergent property" has a standard definition that does not involve something coming into existence over time.

Pressure of a gas is an emergent property. The notion of pressure is not attached to a single molecule/atom.

Suppose, I keep on adding a molecule one by one in a jar. So, pressure (an emergent property) comes into existence over time.
 
  • #29
Deepak K Kapur said:
Suppose, I keep on adding a molecule one by one in a jar. So, pressure (an emergent property) comes into existence over time.
The time you insisted on adding was not a part of the definition and is, in fact, irrelevant to it.
 
  • #30
Deepak K Kapur said:
I think emergence does not /should not mean the same numbers and same types of fundamental particles...
That is how YOU defined it above! I strongly recommend that you use established definitions.

At this point I need to insist that you not proceed further with personal speculation. You need to learn existing definitions of terms that are defined so as to be consistent with the ideas that are intended to be communicated.

Please PM me with a suitable reference
 
  • #31
ZapperZ said:
I know that you are talking about just 3 atoms forming a molecule here, but maybe this is a good jumping point for you to discover another new aspect of our world that Phil Anderson touted many years ago: More Is Different.

I had put this aside to read & finally had a chance to do so. Much of it is over my head (I don't have the background necessary), but those parts of it I do understand seem well-argued and appealing. I had not heard of broken symmetry before. I also like Anderson's demonstrations that reductionism being true in one direction doesn't mean it's true in the other - i.e. that with a knowledge of fundamental laws and behaviors alone, we could derive all more complex systems.
 

1. What is the definition of properties in science?

In science, properties refer to the characteristics or qualities of a substance, material, or system that can be observed or measured. These properties can be physical, such as color, density, or melting point, or chemical, such as reactivity or acidity.

2. How do properties emerge in a system?

The emergence of properties in a system is a complex phenomenon that is not fully understood. However, it is believed to be a result of the interactions and relationships between the individual components of the system. As these components interact, new properties may arise that were not present in the individual components themselves.

3. Can properties be predicted or controlled?

In some cases, properties can be predicted based on the known properties of the individual components and their interactions. However, the emergence of new properties can also be unpredictable and difficult to control, especially in complex systems.

4. Are properties unique to each system or can they be universal?

Properties can be both unique to a specific system and universal. Some properties, such as density or boiling point, are universal and can be observed in different systems. However, some emergent properties may only be present in a specific system due to its unique components and interactions.

5. How do properties contribute to the understanding of a system?

Properties play a crucial role in understanding a system. By studying the properties of a system, scientists can gain insights into its behavior, function, and potential applications. Properties also help to distinguish between different systems and can be used to classify and categorize them.

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