I am sorry but I do not believe that a doctor can be confused by such a childish sophismHerman Trivilino said:I've seen it when interviewing teaching applicants with a Ph.D. in physics.
One example of a misconception: If for every force there's a equal-but-opposite force how can there ever be a nonzero net force?
That's a very simplistic / optimistic remark. Iin my experience, many PhDs get their doctorates by just repeating the ideas of their supervisor. Of course, we had some brilliant exceptions but a significant number were disasters waiting to happen; no ability to relate the book to a practical situation. (I'm referring to Physics and EE doctorates)wrobel said:I am sorry but I do not believe that a doctor can be confused by such a childish sophism
Doesn't that refer to differential equations? DEs are models, applied to the real world. Yes, they work but by making assumptions when the equations are formulated. They are only real to within the limits of final justification through measurement. Has the 'arrow of time' ever been measured to have exceptions in macroscopic objects? Causality is in the same neck of the woods as time symmetry and thermodynamic laws.wrobel said:Cauchy existence and uniqueness theorem
As I recall, your argument in this thread started out as an idea about pedagogy. That it was more helpful to accept student intuitions about cause and effect rather than to bludgeon them into submission about the fact of the matter that the third law is not at all about cause and effect.sophiecentaur said:Doesn't that refer to differential equations? DEs are models, applied to the real world. Yes, they work but by making assumptions when the equations are formulated. They are only real to within the limits of final justification through measurement. Has the 'arrow of time' ever been measured to have exceptions in macroscopic objects? Causality is in the same neck of the woods as time symmetry and thermodynamic laws.
Is this an evidence-based belief?wrobel said:I am sorry but I do not believe that a doctor can be confused by such a childish sophism
We kick undergraduates out of the exams if they don't understand such thingsHerman Trivilino said:Is this an evidence-based belief?
That was what attracted me to the thread because contributors seemed to assume that considering cause and effect would have to be a given requirement to do a Physics degree (or even a lower qualification). Let's face it, if it were a trivial matter then it couldn't support the amount of discussion that it generates here and elsewhere.jbriggs444 said:As I recall, your argument in this thread started out as an idea about pedagogy.
Not really. I am pointing out that symmetry may or may not be there but that it is hardly relevant until you reach some serious frontiers in Physics (well Post Post Graduate). The claims, in the thread, seem to be that it is a simple requirement to ditch causality or you risk failing to understand what's needed for a career in Physics. My 'technical' comments were made merely to show that it's no simple matter to deal with what is claimed to be a misconception. It's strange how many topics in Physics teaching assume equilibrium or static conditions but it\s not graced with the status that this causality has in this thread.jbriggs444 said:More recently, it seems that you are making a claim about the physical world.
robphy said:Possibly interesting:
"Causal reasoning in understanding Newton’s third law"
Cheng Chen, Lei Bao, Joseph C. Fritchman, and Hemin Ma
Phys. Rev. Phys. Educ. Res. 17, 010128 – Published 21 April, 2021 https://doi.org/10.1103/PhysRevPhysEducRes.17.010128
The terms were introduced a long time ago and were chosen (probably) to be acceptable to the public at the time. The notion was (and still is) a difficult one as 'another force' suddenly comes out of nowhere. It is obviously a confusing and counterintuitive notion. There are many others which students of Science have to get their heads round and those notions often have an unsatisfactory vocabulary. Replacing any of them with acceptable terms would involve an impossible amount of effort and cooperation between Scientists. We just have to suck it up and always come prepared with a reasonable caveat when they're used in lessons. Deferred gratification was a huge part of Science education in the old days.Herman Trivilino said:the terms action and reaction should be all but expunged from the vocabulary
The chosen terms were in Latin. I believe that they were written for the capable learned men of the time:sophiecentaur said:The terms were introduced a long time ago and were chosen (probably) to be acceptable to the public at the time.
Newton said:Actioni contrariam semper et æqualem esse reactionem: sive corporum duorum actiones in
se mutuo semper esse æquales et in partes contrarias dirigi
I find the explanation in the second part quite apt and symmetric. The initial phrasing is subject to misinterpretation. The second is straightforward.translation said:To every action there is always opposed an equal reaction; or the mutual actions of two bodies upon each other are always equal, and directed to contrary parts.
That is your intuition grumbling. Silence it already.sophiecentaur said:The notion was (and still is) a difficult one as 'another force' suddenly comes out of nowhere.
I think the onus is on you to provide evidence of PhD students who cannot explain how motion is possible given Newton's Third Law.Herman Trivilino said:Is this an evidence-based belief?
In the introductory physics classroom they are presented to students as quoted in the Principia. This was written by Newton for his contemporaries.sophiecentaur said:The terms were introduced a long time ago and were chosen (probably) to be acceptable to the public at the time.
It's sufficient for instructors to use the appropriate vocabulary in their classes, with a nod to the fact that students will encounter other vocabulary in other classes and scenarios.sophiecentaur said:There are many others which students of Science have to get their heads round and those notions often have an unsatisfactory vocabulary. Replacing any of them with acceptable terms would involve an impossible amount of effort and cooperation between Scientists.
Fair enough. I have only one piece of anecdotal evidence that I can specifically recall, but I think I have encountered other documented evidence in the past.PeroK said:I think the onus is on you to provide evidence of PhD students who cannot explain how motion is possible given Newton's Third Law.
There is an interpretation that the net of all internal forces in a system is zero. It follows that internal forces alone cannot produce an acceleration of the center of mass of a closed system.Herman Trivilino said:A candidate (with Ph.D. in physics) for a teaching position was instructed that at his job interview he would need to deliver a mock lecture on Law I. He did that, but then went on to discuss Laws II and III. He had a slide in his presentation where he'd written ##\vec{F}_{ab}=-\vec{F}_{ba}## and then made the comment that ##-\vec{F}_{ba}## could be moved to the other side of the equation to demonstrate that the net force is zero. I have no idea how or even if his worldview included the notion that (accelerated) motion couldn't be possible or if he perhaps thought that Law III only applied to equilibrium situations.