Theoretical vs. Experimental Physics

In summary, the conversation discusses the debate between theoretical physics and experimental physics, with one person arguing that theoretical physics allows for more contemplation and the other arguing that experimental verification is necessary for a theory to be considered valid. The conversation also addresses the importance of combining theory and experiment in the scientific method and the role of both theory and experimentation in the development of physics throughout history.
  • #1
Englishman
44
0
Which one is more favorable: theoretical physics, or experimental physics?

In my opinion, theoretical physics is much better, because it leaves one to ponder the how the world works without having to do the all of the things that an conducting an experiment reuquires.
 
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  • #2
Englishman said:
Which one is more favorable: theoretical physics, or experimental physics?

In my opinion, theoretical physics is much better, because it leaves one to ponder the how the world works without having to do the all of the things that an conducting an experiment reuquires.

Before you get too comfortable with that opinion, maybe you should read Harry Lipkin's "http://scitation.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=PHTOAD000053000007000015000001&idtype=cvips&prog=normal" ". You seem to be forgetting also that a theory without experimental verification is philosophy, not physics.

Zz.
 
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  • #3
I guess the answer to your question depends on your definition of "favorable."
 
  • #4
ZapperZ said:
Before you get too comfortable with that opinion, maybe you should read Harry Lipkin's "http://scitation.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=PHTOAD000053000007000015000001&idtype=cvips&prog=normal" ". You seem to be forgetting also that a theory without experimental verification is philosophy, not physics.

Zz.

Haha, that's a very PC way of putting it!
 
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  • #5
ZapperZ said:
maybe you should read Harry Lipkin's "http://scitation.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=PHTOAD000053000007000015000001&idtype=cvips&prog=normal" ". You seem to be forgetting also that a theory without experimental verification is philosophy, not physics.
Nice link. Nature is wierder and more interesting than anything a philosopher can come up with.
 
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  • #6
ZapperZ said:
You seem to be forgetting also that a theory without experimental verification is philosophy, not physics.

and experiment without theory is fact collecting, not physics.

The most famous physicists are all theorists who stayed well grounded in experiment, e.g. Newton, Einstein, Maxwell, Boltzmann, and the founders of QM. The great experimentalists in physical science before quantum physics are today remembered as chemists and engineers; Rutherford is an example of someone who considered himself an experimental physicist and is today mostly remembered as a chemist.

Saying "Who ordered the theorist?" is like saying "Who ordered Matter waves?"(De Broglie), "Who ordered anti-matter?" (Dirac), "Who ordered QED?"(Feynman et al), "Who ordered Bose condensates?", "Who ordered W and Z?", etc or more fundamentally "Who ordered calculus?", "Who order probability and statistics?" (gee i dunno, is Gauss more of an experimentalist, or a theorist?).

I don't see a need to fight, and I am not saying "who ordered the experimentalist?" but if choosing between extremes I prefer mathematics to the short-sighted empirical method as a way of gaining knowledge, but we should all agree that combining these two into the scientific method has been a great success.

Edit: The "Who needs.." article is dishonest because it is written in 2000 and is talking about the J/Psi and prior events, but it is a well known fact that the standard model (a theory) has predicted every observation since the J/Psi in the 1970s. Hopefully the discovery of super symmetry of even relatively large extra dimensions at the LHC would boost the status of theoretical physics.
 
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  • #7
lisab said:
I guess the answer to your question depends on your definition of "favorable."

I concur.
Does "favorable" include "being able to find a position that supports your research"?
 
  • #8
isabelle said:
it is a well known fact that the standard model (a theory) has predicted every observation since the J/Psi in the 1970s.
I don't think it's quite a fair statement. I'll pick one calculation, in one of the "easiest" and most established theory : the strong sector of the standard model. For instance, can you tell me how the spin of the proton is shared amongst partons ? Or where the missing resonances are ? Would you conveniently classify non-perturbative problems as "engineering" ?

I would also appreciate thoughts on neutrino mass "predictions". How credible were those before experimental evidences ? I'm not very versed into the history of science, but I believe that the first evidences were rather interpreted as faults in our understanding of the Sun, rather than neutrino oscillations.

The division between experiment and theory is mostly due to the need for expertise on every sides. Apart from that, I think everybody agrees that the closet exchanges between theoreticians and experimentalists is mostly desired for optimal productivity. In an ideal world, we would all do (say for instance) theory in the morning and experiments in the afternoon.
 
  • #9
Seems to me that it's a very bad idea to favor either theory or experiment. I'm doing my PhD work on experimental physics, so I obviously enjoy the latter. But we need both theory and experiment. Experiments are needed to confirm theory. Theory is needed to tell us what the heck our data means physically. I really don't see how you can get away from either side of physics without degrading the science. Certainly different people have different preferences as to what type of physics they want to do for a living. But both are integral parts of the scientific process.
 
  • #10
I'm glad that my own area, neuroscience, is a young enough field that a single person can often make meaningful contributions to both theory and experiment.
 
  • #11
isabelle said:
and experiment without theory is fact collecting, not physics.

The most famous physicists are all theorists who stayed well grounded in experiment, e.g. Newton, Einstein, Maxwell, Boltzmann, and the founders of QM. The great experimentalists in physical science before quantum physics are today remembered as chemists and engineers; Rutherford is an example of someone who considered himself an experimental physicist and is today mostly remembered as a chemist.

Saying "Who ordered the theorist?" is like saying "Who ordered Matter waves?"(De Broglie), "Who ordered anti-matter?" (Dirac), "Who ordered QED?"(Feynman et al), "Who ordered Bose condensates?", "Who ordered W and Z?", etc or more fundamentally "Who ordered calculus?", "Who order probability and statistics?" (gee i dunno, is Gauss more of an experimentalist, or a theorist?).

I don't see a need to fight, and I am not saying "who ordered the experimentalist?" but if choosing between extremes I prefer mathematics to the short-sighted empirical method as a way of gaining knowledge, but we should all agree that combining these two into the scientific method has been a great success.

Edit: The "Who needs.." article is dishonest because it is written in 2000 and is talking about the J/Psi and prior events, but it is a well known fact that the standard model (a theory) has predicted every observation since the J/Psi in the 1970s. Hopefully the discovery of super symmetry of even relatively large extra dimensions at the LHC would boost the status of theoretical physics.

You will note that I am not the one who is trying to tout the "favorability" of one over the other.. It is the OP who started the thread, and it is ANOTHER THEORIST who wrote that article. The whole point in showing it is that as many as there are people who are skewerd into thinking that one trumps over the other, there's another equally radical point of view that shows the opposite.

Physics is composed of BOTH theory and experiment. They both are one of the same. This is why the OP's question is rather meaningless.

Zz.
 
  • #12
Englishman said:
Which one is more favorable: theoretical physics, or experimental physics?

Neither. Mathematics is more favorable than both, it tells us exactly how the world works, given that the axioms are true in reality.
 
  • #13
Focus said:
Neither. Mathematics is more favorable than both, it tells us exactly how the world works, given that the axioms are true in reality.

Oh no...

OK, starting with JUST mathematics and all its axioms, derive Coulomb's Law.

Zz.
 
  • #14
ZapperZ said:
Oh no...

OK, starting with JUST mathematics and all its axioms, derive Coulomb's Law.

Zz.

I didn't say it would be practical nor complete.
 
  • #15
Focus said:
I didn't say it would be practical nor complete.

Then how is it more "favorable" than physics? That's like saying the alphabets are more "favorable" than the words and ideas that they form.

Zz.
 
  • #16
Englishman said:
Which one is more favorable: theoretical physics, or experimental physics?

In my opinion, theoretical physics is much better, because it leaves one to ponder the how the world works without having to do the all of the things that an conducting an experiment reuquires.
You mean physics is like creationism? But by this reasoning, isn't experimental physics much better because it leaves one to conduct experiments without having to do all the things that pondering how the world works requires?
 
  • #17
ZapperZ said:
Before you get too comfortable with that opinion, maybe you should read Harry Lipkin's "http://scitation.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=PHTOAD000053000007000015000001&idtype=cvips&prog=normal" ". You seem to be forgetting also that a theory without experimental verification is philosophy, not physics.Zz.

Of course there needs to be experimental verification; theories would have no ground without experimental verification. I'm just talking about the quest of solving a scientific problem experimentally versus theoretically.
 
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  • #18
DaleSpam said:
Nice link. Nature is wierder and more interesting than anything a philosopher can come up with.

That's the whole point; philosophy is not what I'm talking about. I am talking about theory.
 
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  • #19
isabelle said:
and experiment without theory is fact collecting, not physics.

The most famous physicists are all theorists who stayed well grounded in experiment, e.g. Newton, Einstein, Maxwell, Boltzmann, and the founders of QM. The great experimentalists in physical science before quantum physics are today remembered as chemists and engineers; Rutherford is an example of someone who considered himself an experimental physicist and is today mostly remembered as a chemist.

Saying "Who ordered the theorist?" is like saying "Who ordered Matter waves?"(De Broglie), "Who ordered anti-matter?" (Dirac), "Who ordered QED?"(Feynman et al), "Who ordered Bose condensates?", "Who ordered W and Z?", etc or more fundamentally "Who ordered calculus?", "Who order probability and statistics?" (gee i dunno, is Gauss more of an experimentalist, or a theorist?).

I don't see a need to fight, and I am not saying "who ordered the experimentalist?" but if choosing between extremes I prefer mathematics to the short-sighted empirical method as a way of gaining knowledge, but we should all agree that combining these two into the scientific method has been a great success.

Edit: The "Who needs.." article is dishonest because it is written in 2000 and is talking about the J/Psi and prior events, but it is a well known fact that the standard model (a theory) has predicted every observation since the J/Psi in the 1970s. Hopefully the discovery of super symmetry of even relatively large extra dimensions at the LHC would boost the status of theoretical physics.

Exactly. I agree, completely and totally. Yeah, it would be nice if they could find the Higgs boson.
 
  • #20
arunma said:
Seems to me that it's a very bad idea to favor either theory or experiment. I'm doing my PhD work on experimental physics, so I obviously enjoy the latter. But we need both theory and experiment. Experiments are needed to confirm theory. Theory is needed to tell us what the heck our data means physically. I really don't see how you can get away from either side of physics without degrading the science. Certainly different people have different preferences as to what type of physics they want to do for a living. But both are integral parts of the scientific process.

Of course, theoretical physics and experimental physics are needed in partnership. I'm just saying, as you are saying, that I have a preference. But, besides the fact that I have a preference, theoretical physics is also more cost-effective (does not cost a cent to sit down and think) and there is much more freedom, because one does not have to go to a laboratory or gather materials; one can think anywhere.
 
  • #21
Cincinnatus said:
I'm glad that my own area, neuroscience, is a young enough field that a single person can often make meaningful contributions to both theory and experiment.

Yeah, I know that for sure. Neuroscience is quite interesting. I want to be a neurosurgeon, so I'll have to learn some of neuroscience.
 
  • #22
ZapperZ said:
You will note that I am not the one who is trying to tout the "favorability" of one over the other.. It is the OP who started the thread, and it is ANOTHER THEORIST who wrote that article. The whole point in showing it is that as many as there are people who are skewerd into thinking that one trumps over the other, there's another equally radical point of view that shows the opposite.

Physics is composed of BOTH theory and experiment. They both are one of the same. This is why the OP's question is rather meaningless.

Zz.

The "OP," which is I, did not post a meaningless question. I was rather simply just wondering what is favored, and why one is particularly favored.
 
  • #23
jimmysnyder said:
You mean physics is like creationism? But by this reasoning, isn't experimental physics much better because it leaves one to conduct experiments without having to do all the things that pondering how the world works requires?

Could you please clarify your question?
 
  • #24
Englishman said:
Could you please clarify your question?
No need. I retract it. When I read your OP, I thought you meant that experiments were a waste of time. Instead of posting as I did, I should have asked for clarification myself.
 
  • #25
It's funny how one can answer "I agree completely" to
the discovery of super symmetry of even relatively large extra dimensions at the LHC would boost the status of theoretical physics
and then add
Englishman said:
it would be nice if they could find the Higgs boson.
because large extra dimensions are instances of what could remove the need for a Higgs boson, and supersymmetry, although it requires ingredients similar to several Higgs, is mostly understood as solving the difficulties brought about by the single Higgs model itself. So the actual hope of "what would be nice" is that we do not find the Higgs ! Finding a single Higgs would let us with a not-so-pretty theory and quite boring perspectives.
 
  • #26
"In theory, theory and practice are the same. In practice, theory and practice are practically unrelated"
 
  • #27
humanino said:
It's funny how one can answer "I agree completely" to and then addbecause large extra dimensions are instances of what could remove the need for a Higgs boson, and supersymmetry, although it requires ingredients similar to several Higgs, is mostly understood as solving the difficulties brought about by the single Higgs model itself. So the actual hope of "what would be nice" is that we do not find the Higgs ! Finding a single Higgs would let us with a not-so-pretty theory and quite boring perspectives.

It seems quite obvious that you are well-versed in these topics (I am not). I read a while ago that they were looking for the Higgs boson, and I thought that it would be positive for them to find it; I didn't know that finding large extra dimensions would take away the "need" or mission to find the Higgs boson. Even though I do like quantum mechanics and completing the standard model with string (also M-theory), I am more into relativity and Einsteinian concepts.
 
  • #28
Englishman said:
Which one is more favorable: theoretical physics, or experimental physics?

In my opinion, theoretical physics is much better, because it leaves one to ponder the how the world works without having to do the all of the things that an conducting an experiment reuquires.

By favorable, you mean personally, then the answer is very simple. Just watch me make the mess I make when I pour myself a glass of coke. Very good reasons to stay away from experiments.:-p
 
  • #29
anirudh215 said:
By favorable, you mean personally, then the answer is very simple. Just watch me make the mess I make when I pour myself a glass of coke. Very good reasons to stay away from experiments.:-p

Yeah, I just think experiments in general are boring (including in chemistry, biology, and physics). They are very tedious and time consuming when I have to do them in school. And you know, the reason for doing experiments in school is to solidify what you've been taught on a specific subject (so I've heard), but actually, experiments never solidify it; they just waste my time. I'm doing an experiment when I could be looking at the textbook some more and thinking about the concept.
 
  • #30
Englishman said:
They are very tedious and time consuming when I have to do them in school.
Since when does school work reflect real life research work ? I'm sorry but you have not felt how it's like to build a new device enabling you to be the first to climb on a mountain high enough to contemplate a full circle rainbow. Let me tell you, it does not feel boring at all. If in addition, the full rainbow turns out not to be a circle, with possibly unexpected color, it becomes really ecstatic.
Englishman said:
they just waste my time.
It's sad to read that you have undergone poor eduction.
 
  • #31
Englishman said:
Yeah, I just think experiments in general are boring (including in chemistry, biology, and physics). They are very tedious and time consuming when I have to do them in school. And you know, the reason for doing experiments in school is to solidify what you've been taught on a specific subject (so I've heard), but actually, experiments never solidify it; they just waste my time. I'm doing an experiment when I could be looking at the textbook some more and thinking about the concept.

Hi Englishman,
To me it looks like as if you're agreeing with something I said. I never stated that experiments were boring. All I meant (jokingly) was I'm more useful when I stand in the background and watch SOMEONE ELSE do the experiment rather than be a part of it. Experiments are damn fun ESPECIALLY chemistry, physics and biology. Did you see the pictures and stuff Cyrus (A college student who visits PF) posted? That stuff looked superb! Look at that and then comment about experimenting. I remember my brother doing some stuff on Shape memory alloys. And that blew my mind away too. Can't wait till I get older and hone my experimentation skills!
 
  • #32
humanino said:
It's sad to read that you have undergone poor eduction.

I have undergone poor eduction? What does that mean?
 
  • #33
anirudh215 said:
Hi Englishman,
To me it looks like as if you're agreeing with something I said. I never stated that experiments were boring. All I meant (jokingly) was I'm more useful when I stand in the background and watch SOMEONE ELSE do the experiment rather than be a part of it. Experiments are damn fun ESPECIALLY chemistry, physics and biology. Did you see the pictures and stuff Cyrus (A college student who visits PF) posted? That stuff looked superb! Look at that and then comment about experimenting. I remember my brother doing some stuff on Shape memory alloys. And that blew my mind away too. Can't wait till I get older and hone my experimentation skills!
Well, maybe experiments will be more enjoyable once I get into college, but for now, experiments just take up time in the day.
 
  • #34
Englishman said:
Yeah, I just think experiments in general are boring (including in chemistry, biology, and physics). They are very tedious and time consuming when I have to do them in school. And you know, the reason for doing experiments in school is to solidify what you've been taught on a specific subject (so I've heard), but actually, experiments never solidify it; they just waste my time. I'm doing an experiment when I could be looking at the textbook some more and thinking about the concept.

As for experiments in school, I agree with you 100%. As a TA I have to waste my time babysitting college kids in lab classes that they hate and derive no benefit from. When they ask me a question, they don't have any curiosity, they just want to know how to follow the procedure so they can finish and get on with their lives. College physics labs (at my major state university) are nothing more than busy work to make students feel like they are getting something for their (outrageously large) tuition fees.

Then, at the graduate level, my classmates who are pursuing their PhDs in experimental physics spend years in a basement laboratory assembling electronic circuits and calibrating optical benches (lens, mirrors, lasers, etc). One day they hope to become Principal Investigators with their own laboratories, but that day is far in the future and cannot happen for everyone. On the otherhand, at least they get paid to assemble circuits while I have to teach to support my theoretical studies.

By the way, I really like teaching, but only when the students care about learning, which doesn't happen in physics labs...three hours of pointless torture several times a week, and then I spend hours grading the lab reports that the students could care less about, it's a pathetic system.
 
  • #35
Englishman said:
Well, maybe experiments will be more enjoyable once I get into college, but for now, experiments just take up time in the day.

I still ended up hating the required physics lab I had to take in college, but that's because it was not that much more interesting that what we did in high school physics. The friends I had who were pure physics majors though said that senior lab courses actually got interesting. And at the graduate level, experimentalists hopefully like what they do, so it does get better with time.
 

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