Exploring the Fundamentals of Flux: Why Do Things Affect Each Other?

In summary, the conversation discusses the concept of energy and its relationship to mass. Some participants argue that energy and mass are fundamentally different, while others believe they are connected in some way. The equation E = mc^2 is mentioned as a way to transfer mass into energy. Some also mention the idea of reducing energy to a more understandable level, and there is a brief mention of the properties of matter such as mass and charge.
  • #36
The http://en.wikipedia.org/wiki/Energy" [Broken] on energy mentions this: -
For example, a compressed spring will be slightly more massive than before it was compressed. Likewise, whenever energy is transferred between systems by any mechanism, an associated mass is transferred with it.

Doesn't this contradict the view that energy is just an abstract concept? Or is this just plain wrong?
 
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  • #37
Goldstone1 said:
Don't try and be pedantic. My statement was very true. M is for the mass, or matter of a particle. Why be pedantic on such terminologies? The answer I gave was not dangerous, nor was it incorrect. Your explanation is not incorrect either, but I'd argue it's not as elegant as mine. For instance:

''energy is the capacity to do work''

Saying energy is more of a fundamental fluctuation which is a diffused matter, while matter is a concentrated form of energy is absolutely correct within the framework of Einstein's energy-mass equation.

https://www.physicsforums.com/showthread.php?t=509191 It's their word against yours. I think "absolutely correct" is a rather strong classification of your statement.
 
  • #38
I like to think of energy in relation to Noether's theorem. Her theorem states that any differentiable symmetry of the action has a corresponding conservation law (or conserved current). Symmetries of space and time correspond to conservation of linear momentum and conservation of energy. This gives a geometric understanding of energy, and relates it to the least action variational principle, which I find particularly attractive because it works fine as a universal principle of nature even without us having to chose a coordinate system, and therefore "space and time" can sort of emerge from such a theory (which is generally not the case of certain very popular unification theories...).
To me Emmy Noether did one of the most important insights of all in physics for this reason, but obviously the above discussion also need to be extended to general relativity and quantum physics where we find additional, but consistent insights into what energy is (or rather "how" it is...). The last word about energy has certainly not been said since energy is an integral part of the quest for a grand unified theory...

Anyway, a more common everyday description of energy is to say that "energy is the ability of a system to do work on another system". I can probably come up with 10 other descriptions of energy that shed light to the physics of light, quantum fluctuations, nuclear physics, reaction chemistry, and so on. And they are all same, same but different ;-)
 
  • #39
I really really don't understand why this is even an issue. Looking at the basic definition of energy and understanding the effects of energy conversions will immediately show you that the term energy only describes the interaction between objects. Mass, momentum, velocity, and pretty much every other physical property can be converted into a type of energy. Why? Because all of these things determine how objects interact. Without these fundamental properties energy has no meaning.

In contrast, you cannot convert mass to charge, or velocity to momentum. These are properties used to find energy. Energy is a "catch all" term to easily describe interactions.
 
  • #40
Drakkith said:
I really really don't understand why this is even an issue. Looking at the basic definition of energy and understanding the effects of energy conversions will immediately show you that the term energy only describes the interaction between objects. Mass, momentum, velocity, and pretty much every other physical property can be converted into a type of energy. Why? Because all of these things determine how objects interact. Without these fundamental properties energy has no meaning.

In contrast, you cannot convert mass to charge, or velocity to momentum. These are properties used to find energy. Energy is a "catch all" term to easily describe interactions.

Its not an issue only if you convince yourself that your right or that you have a complete answer - and that you understand the terms your using - and if you understand what is required for understanding - and if you know the proper method of forming definitions - and you are sure you understand the connection between concepts(universals) and concretes; between mathematics and reality.

Its really no problem otherwise - and its really really not a problem if you accept that the multiplication of two numbers is an immediate description of things in reality.
 
  • #41
Kiril said:
Its not an issue only if you convince yourself that your right or that you have a complete answer - and that you understand the terms your using - and if you understand what is required for understanding - and if you know the proper method of forming definitions - and you are sure you understand the connection between concepts(universals) and concretes; between mathematics and reality.

Its really no problem otherwise - and its really really not a problem if you accept that the multiplication of two numbers is an immediate description of things in reality.

Hrmm. This seems like a complicated way of saying "You don't know what you are talking about". Is that what you were getting at?
 
  • #42
Drakkith said:
Hrmm. This seems like a complicated way of saying "You don't know what you are talking about". Is that what you were getting at?

That depends on what you mean. That's what I mean; are the requirements for 'knowing what one is talking about'.

What part of it is superfluous, that you decided to call it "...[over] complicated"?
 
  • #43
Kiril said:
That depends on what you mean. That's what I mean; are the requirements for 'knowing what one is talking about'.

What part of it is superfluous, that you decided to call it "...[over] complicated"?

You will start making sense NOW or I WILL get the hose out!
 
  • #44
Kiril, I agree with Drakkith, I have no idea what you are trying to say. Try to express yourself clearly and directly.
 
  • #45
Naty1 said:
Science can't answer such fundamental questions as "What is energy?"
This is incorrect. The answer to any question of the form "What is X" is the definition of X. So "What is energy?" is completely and fully answered by the definition "Energy is the capacity to do work."

It also doesn't matter if you put if you put the word "is" in capitals or not. For example: Energy IS the capacity to do work.
 
  • #46
Naty1 said:
not at all: in fact you have it backwards. Science can't answer such fundamental questions as "What is energy?" or "What is mass?"

I regard this as a false tautology. Science can't explain what energy (for example) is in more fundamental terms yet, but surely has the capacity to in the future.

Consider all the quantities that were once regarded as fundamental, that have since been shown to be not so fundamental.

Claude.
 
  • #47
DaleSpam said:
The answer to any question of the form "What is X" is the definition of X. .

This remark introduces us to the hearth of the issue.

you may see 'definition' at wikipedia (...)

As you see, it is a thorny issue because besides linguistics (semantics), epistemology we need to turn to ontology (bad word!)
because what is x is asking for the essence of x.

To make a long story short:
(we must avoid circular definition, that is begging the question.
We cannot reply
energy is mc^2 ( the sign = substitutes IS)
because mass itself is defined on energy (mass is a-form-of /trapped energy))

In the case of an object there is a shortcut.
ostensive definition
what is a mango? , and I produce a mango

but often this is not enough and we turn to:
functional definition,
when x does not carry in itself a functional definition
(dishwasher)
...
Now, coming to our issue

WHAT IS ENERGY ?
can be answered in several ways,
it is rather easy, as, even it is not an object, it is a
universally known concept

if it is a baby asking you can give him practical definition
lift that chair !

If you want a technical definition
you must list its qualities, properties, characteristics
physics can help, but not a lot, as it has never really tackled the problem as such
and , as you well know, physics has seven basic units but
there is no one specific unit of energy

If you are at all interested to know how would I answer the question,
I'd say something at the same time (technical) physical and metaphysical

Energy is just POWER to change the world
 
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  • #48
Again, as has been stated multiple times, MASS IS NOT ENERGY. IT IS MASS.
Mass is not made of energy, it is not a form of energy, it is a fundamental property that has certain observable features.

Is there something with the basic definitions of science that just don't sit right with people?

because what is x is asking for the essence of x.

What is the essence of x? What is it asking for? The only answer, as Dalespam said, is to give the definition of x. Not enough? Describe its properties, functions, and forms. Still not enough? Then you aren't asking What is x. You are saying "I don't believe that the definition of X is correct, and I would like something else."

Lets see what happens with a practical example.

"What is eating?"

"Eating is the process of getting food, preparing that food for digestion by putting it into your mouth, chewing it, and then swallowing it. AKA it is the process of ingesting food."


"I don't like that definition. There has to be more to it at a fundamental perceptual emotional physical universal spiritual level."

"What? We have defined eating just as that."


"I think we are all made out of eating. Because if it wasn't for that then nothing could happen. In fact, Hamstein's equation Eating = Hamburger x Swallowing^3 shows that Hamburgers and Eating are the same. So hamburgers are also made out of eating."


"No, that just shows that putting Hamburgers into your mouth and swallowing them equates to eating."

I agree with BlueTextGuy! Understanding Eating is beyond the comprehension of mortal minds, our only way to figure it out is to avoid backing ourselves into a definition corner!


You guys have completely ruined my lunch...and no, you cannot have my Hamburger. I'm going to eat it later.
 
  • #49
Drakkith said:
The only answer, as Dalespam said, is to give the definition of x. Not enough? Describe its properties, functions, and forms.]

You are quite right so far, but...

...I tried to explain in synthesis that definition is a very complex exercise, issue
I said thorny
If my exposition is not clear or convincing, check with academic essays.

There are several levels you are trying to demostrate, well that was agreed and settled
what is a mango?
...This is a mango defines the looks of x, tells: how to recognize it
...mango is a tropical fruit tells...
...mango contains vitamins, antocyanins tells...
...mango is moderately laxative and so on...
Then you are forgetting another fundamental disctinction between an object a concept

what is a mango ? requires different attention from
what is love ?,

but I won't go through that.

as far as mass is concerned, I am not an expert, I am a linguist but I reckon it was
Einstein himself who spoke of mass as a form of energy.
If you sure of the contrary, please offer a link
 
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  • #50
I agree 100% with what you just said Simpatico. I wasn't trying to infer that the definition of something wasn't a complex issue. But when we speak of concepts in science, one MUST be aware of the basic definitions of its terms or there isn't any point in defining them! Take a quick look at the E=MC2 article on Wikipedia, it explains that the equation doesn't mean that energy is equal to mass, but that energy carries with it mass, as in the case of missing mass after a nuclear or chemical reaction.
 
  • #51
Drakkith said:
Again, as has been stated multiple times, MASS IS NOT ENERGY. IT IS MASS.
Mass is not made of energy, it is not a form of energy, it is a fundamental property that has certain observable features.

Is there something with the basic definitions of science that just don't sit right with people?
What is the essence of x? What is it asking for? The only answer, as Dalespam said, is to give the definition of x. Not enough? Describe its properties, functions, and forms. Still not enough? Then you aren't asking What is x. You are saying "I don't believe that the definition of X is correct, and I would like something else."

Lets see what happens with a practical example.

"What is eating?"

"Eating is the process of getting food, preparing that food for digestion by putting it into your mouth, chewing it, and then swallowing it. AKA it is the process of ingesting food."


"I don't like that definition. There has to be more to it at a fundamental perceptual emotional physical universal spiritual level."

"What? We have defined eating just as that."


"I think we are all made out of eating. Because if it wasn't for that then nothing could happen. In fact, Hamstein's equation Eating = Hamburger x Swallowing^3 shows that Hamburgers and Eating are the same. So hamburgers are also made out of eating."


"No, that just shows that putting Hamburgers into your mouth and swallowing them equates to eating."

I agree with BlueTextGuy! Understanding Eating is beyond the comprehension of mortal minds, our only way to figure it out is to avoid backing ourselves into a definition corner!


You guys have completely ruined my lunch...and no, you cannot have my Hamburger. I'm going to eat it later.

haha your example is hilarious :rofl: i thought you handled it extremely well when somebody trying to be philosophical called you pedantic. you are much more patient than me! :tongue:
 
  • #52
RK1992 said:
haha your example is hilarious :rofl: i thought you handled it extremely well when somebody trying to be philosophical called you pedantic. you are much more patient than me! :tongue:

Lol, I think Dalespam was the one being called Pedantic. :biggrin:
 
  • #53
RK1992 said:
haha your example is hilarious :rofl:

Yes I thought so too. Its a good example of the straw man fallacy. The type of trick one might play if he were hiding a proud dogmatism - perhaps even a fear of independent thought, and perhaps even worse still, he never knew it.
 
  • #54
Kiril said:
Yes I thought so too. Its a good example of the straw man fallacy. The type of trick one might play if he were hiding a proud dogmatism - perhaps even a fear of independent thought, and perhaps even worse still, he never knew it.

I'm glad everyone liked it!

Anyways, the point is that you don't come into a forum for mainsteam science, tell everyone you don't believe the description science has given something, base your opinion on a misinterpretation of scientific laws, provide no evidence or math for your position beyond that, and then expect to be taken seriously.

Not everyone in this thread has done so, but you most definitely have Kiril.
 
  • #55
Drakkith said:
Lol, I think Dalespam was the one being called Pedantic. :biggrin:
Hey Drakkith, welcome to the pedantic club!

Awesome post, by the way. Definitely the best this month!
 
  • #56
DaleSpam said:
Hey Drakkith, welcome to the pedantic club!

Awesome post, by the way. Definitely the best this month!

Woohoo! Where is my pedantic award!?
 
  • #57
Kiril said:
Its a good example of the straw man fallacy.
It is not a straw-man fallacy, it is an analogy with exaggeration for effect.

A straw man fallacy is when one side refutes a position that the other side does not hold. In this case, the other side does, in fact, hold the position that there must be more to the question "what is energy?" than the definition.

The question "what is eating?" and the exaggerated dialogue is clearly analogous to the position actually being refuted, so it is definitely not a strawman. At worst you can say that it is over-exaggerated, but I think it is spot-on given posts like your #14.

Kiril said:
The type of trick one might play if he were hiding a proud dogmatism - perhaps even a fear of independent thought, and perhaps even worse still, he never knew it.
This, on the other hand, is a good example of the ad hominem fallacy. If you are going to accuse others of fallacious arguments you should probably avoid them yourself.
 
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  • #58
simpatico said:
definition is a very complex exercise ... what is a mango ? requires different attention from
what is love ?,
Definition is not necessarily very complex. Write a description X of some concept, take a word Y, then say "By definition Y is X". That is all.

Obviously, some concepts, such as love, are difficult to write a description for and other concepts, such as mangos, are relatively easy to describe. Energy is even easier to describe than mangos. So in the case of energy, the exercise of definition is not very complex at all.

simpatico said:
I reckon it was Einstein himself who spoke of mass as a form of energy. If you sure of the contrary, please offer a link
You want him to post a link to show that Einstein did not say something? That doesn't make any sense.
 
  • #59
Drakkith said:
Woohoo! Where is my pedantic award!?
Being pedantic is its own reward :smile:

I can't believe this thread is still going.
 
  • #60
Drakkith said:
1) I agree 100% with what you just said Simpatico. I wasn't trying to infer that the definition of something wasn't a complex issue.

..2)Take a quick look at the E=MC2 article on Wikipedia, it explains that the equation doesn't mean that energy is equal to mass, but that energy carries with it mass, as in the case of missing mass after a nuclear or chemical reaction.


1) I'm pleased you agree with my post #49
but that is exactly what I said in post #47 to which you responded with your Dialogue.
I hope we all should read people's statement carefully before arguing, because otherwise the discussion gets out of hand ( though amusing) and we would chase our tails endlessly

2) the bolded passage is an example of going beyond strawmen into the dominion of
wordtwisting
I said twice a form of energy and you change it to is equal to
I agree 100% with you energy is not (equal to) mass.What is the problem?
the same as cheese is not equal to milk, but a form thereof (a derivative, transformation, manipulation...)
mass is even a better example than cheese, because cheese cannot be reverted into milk
 
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  • #61
simpatico said:
[/B]

1) I'm pleased you agree with my post #49
but that is exactly what I said in post #47 to which you responded with your Dialogue.
I hope we all should read people's statement carefully before arguing, because otherwise the discussion gets out of hand ( though amusing) and we would chase our tails endlessly

2) the bolded passage is an example of going beyond strawmen into the dominion of
wordtwisting
I said twice a form of energ

I don't see it. I read 2 completely different things between those 2 posts. They aren't the easiest to understand clearly, so it's possible I am not understanding you.
 
  • #62
Drakkith said:
1)as has been stated multiple times, MASS IS NOT ENERGY. IT IS MASS.
... just don't sit right with people?

2)What is the essence of x? What is it asking for? The only answer, as Dalespam said, is to give the definition of x. Not enough? Describe its properties, functions, and forms. Still not enough? Then you aren't asking What is x. You are saying "I don't believe that the definition of X is correct, and I would like something else."
hi drakkith, I 'm glad you are online. I was editing previous post, so please read it again

1) I have already answered that you are not arguing with me, but with yourself

2) the point here is that sometime scientists, tend to ignore deliberately that theirs is not the only science and
only a physicist can treat physics and
they, or justanyone can treat say, linguistics, logics ...
a) you think it's simple to give a definition because you check with a dictionary, and don't know how hard work it is.
to define a word properly, completely it's a huge work it means to enumerate ALL its qualities,properties, funcions, interactions...it means thousands, millions or more items,that should contain all the levels you imagine
b)someone perhaps thinks that in this case ,there is
a definition made by a linguist
and one (of course better) made by a physicist
that's wrong.
everyman to his last
...now,

This thread is under the domain of linguistics (semantics) so
physics must step back,
the linguist must turn to physics as his source.fullstop.
But, as I said and no one has so far contradicted me, physics has not even bothered to set a unit for it,
 
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  • #63
DaleSpam said:
1) Definition is not necessarily very complex. Write a description X of some concept, take a word Y, then say "By definition Y is X". That is all.

2) Energy is even easier to describe than mangos. So in the case of energy, the exercise of definition is not very complex at all.

3)You want him to post a link to show that Einstein did not say something? That doesn't make any sense.

1) please read point 2 in my post #62
2) I hope ,after reading #62 and re-reading #47 you realize that you agree with me
as I agreed with you entering the thread,in the first place
but, once you aknowledged that the issue at hand is definition, you must be consequent and give way to specialists.

You must only realize that when you speak of easyness
you are simplifying degrees of precision
a real definition leaves no room for improvement

3) probably this is not an instance of wordtwisting, but of hasty perusal of a text:
contrary refers to 'mass..' and not to who said it

( by the way, dalespam , you are a science advisor, what fields? I haven't gone through all posts, what is your own definition?)

4)I realized, only after writing it, that my definition was the exact translation into plain English of what Drakkith had stated in technical jargon.
I used POWER as essence (ontology), as this too is a universally known concept,
and change the world, as quality, functional definition (what is it good for?)
That 's the role of a linguist, mediate between source and general public
 
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  • #64
It is the ability to do work in simple language, to do anything it requires energy of any form, mechanical, heat or anything else.
 
  • #65
simpatico said:
a) you think it's simple to give a definition because you check with a dictionary, and don't know how hard work it is.
to define a word properly, completely it's a huge work it means to enumerate ALL its qualities,properties, funcions, interactions...it means thousands, millions or more items,that should contain all the levels you imagine
b)someone perhaps thinks that there is a definition made by a linguist
and one (of course better) made by a physicist
that's wrong. everyman to his last

I have no doubt that it is difficult to define something properly. But that IS what has happened, it has been defined. I don't need to slog through countless experiments and measurements to figure out what it is. Someone else has already done that.

This thread is under the domain of linguistics (semantics) so physics must step back, the linguist must turn to physics as his source.fullstop.
But, as I said and no one has so far contradicted me, physics has not even bothered to set a unit for it, the mostant important thing in the universe.
Don't you think it's queer?

No one has contradicted you because you don't say anything other than complicated babble about how complicated definitions are and something about mango's. Oh, by the way, Joules is the SI unit of measurement for Energy. It is also the unit of measurement for Work. Why do you think that is?
 
  • #66
Drakkith said:
No one has contradicted you because you don't say anything other than complicated babble about how complicated definitions are and something about mango's. Oh, by the way,
Joules is the SI unit of measurement for Energy.
It is also the unit of measurement for Work. Why do you think that is?

hi drakkith,
you sound irritated,if it is so: I' m sorry. I very much esteem you!
and I 'm sorry for the babble, but every field has its own jargon.
I appreciated your definition and acknowledged it.If I said jargon, it was not offensive, but I thought, it is the apprropriate word, at least in British English.
I don't mind being contradicted, but you just changed twice my word ' a form of' altering my statements.
as to Joules
1)[ it is not a basic unit,( in #47,I mentioned the 7 units: like space..)
2) it is ( now I stand corrected) a unit made up by 1.5 x 10^ 33 h
once I was corrected that :
Joule is unit of work and
h is unit of action. so I was stranded, without energy.
Isn't it so?
bye
 
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  • #67
This is no longer physics. Locked.
 
<h2>1. What is flux and why is it important to study?</h2><p>Flux is a concept in physics that refers to the flow of a physical quantity through a surface or boundary. It is important to study because it helps us understand how different variables and forces affect each other and the overall behavior of a system.</p><h2>2. How is flux calculated and measured?</h2><p>Flux is calculated by taking the dot product of a vector quantity and the normal vector of a surface. It is measured in units of quantity per unit time, such as meters cubed per second for fluid flow or watts per square meter for heat transfer.</p><h2>3. What factors affect the magnitude of flux?</h2><p>The magnitude of flux is affected by the strength of the source or sink, the surface area through which the flux is passing, and the angle between the flux and the surface. Other factors such as the medium through which the flux is passing and the properties of the surface can also play a role.</p><h2>4. How does flux relate to other fundamental concepts in physics?</h2><p>Flux is closely related to other fundamental concepts in physics such as vector calculus, conservation laws, and the laws of thermodynamics. It is also used in many different fields of study, including fluid mechanics, electromagnetism, and heat transfer.</p><h2>5. What are some real-world applications of flux?</h2><p>Flux has many practical applications, such as predicting the flow of fluids in pipes, calculating the rate of heat transfer in a building, and understanding the behavior of electromagnetic fields. It is also used in fields like meteorology, oceanography, and engineering design to analyze and predict complex systems.</p>

1. What is flux and why is it important to study?

Flux is a concept in physics that refers to the flow of a physical quantity through a surface or boundary. It is important to study because it helps us understand how different variables and forces affect each other and the overall behavior of a system.

2. How is flux calculated and measured?

Flux is calculated by taking the dot product of a vector quantity and the normal vector of a surface. It is measured in units of quantity per unit time, such as meters cubed per second for fluid flow or watts per square meter for heat transfer.

3. What factors affect the magnitude of flux?

The magnitude of flux is affected by the strength of the source or sink, the surface area through which the flux is passing, and the angle between the flux and the surface. Other factors such as the medium through which the flux is passing and the properties of the surface can also play a role.

4. How does flux relate to other fundamental concepts in physics?

Flux is closely related to other fundamental concepts in physics such as vector calculus, conservation laws, and the laws of thermodynamics. It is also used in many different fields of study, including fluid mechanics, electromagnetism, and heat transfer.

5. What are some real-world applications of flux?

Flux has many practical applications, such as predicting the flow of fluids in pipes, calculating the rate of heat transfer in a building, and understanding the behavior of electromagnetic fields. It is also used in fields like meteorology, oceanography, and engineering design to analyze and predict complex systems.

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