Academia: Exponential Growth & Post Docs Till 40?

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In summary, the conversation discusses the issue of oversaturation in academia due to exponential growth and the slow rate of professor retirement. The solution proposed is for schools to assist students in transitioning out of academia. The conversation also touches on the idea that a PhD should not be solely focused on becoming a professor and that there is value in other fields of study, such as philosophy and classic literature. The conversation concludes with a discussion on the value of university degrees and the potential for oversaturation in other industries as well.
  • #106
mal4mac said:
Is becoming a stockbroker that easy? In the UK, at least, daddy better have the contacts and money

US and UK have very, very different financial systems, and in the US it's pretty straight forward to be a stockbroker, but because it's not that hard, it's not a particularly high status position. (I'll avoid the temptation to explain why the US and UK systems are so different, but there are deep cultural, historical, geographical, and legal reasons for it.)

I often wondered if I should have applied for a stockbroker job. Now I see that I would have had 0% chance! Makes me feel a bit better... I never had a chance of earning easy big bucks :)

In the US, stock broker jobs are relatively easy to get, but they don't pay very well and aren't high status, and involve skills that I'm awful at. In the US, most retail stock brokers are glorified bank tellers, and you aren't going to make big bucks being a stock broker.

I suppose it's obvious - those with big money and power are going to make sure that the jobs that easily provide big money and power are kept for their kids.

Yes and no. There is a balance here, because if you keep money and power *only* for your kids, then eventually people on the outside will form their own counter-elite and you lose. So you have to keep the bulk of money and power for your kids, but you have to keep the system open enough (or at least provide the illusion of openness) so that people try to preserve the system rather than overthrow it.

Also, you are in trouble if your kids are idiots, and don't have the brains to preserve the system you hand down to them.

In China about a 1000 years ago, they figured out a way around this by creating an examination system, which evolved over the years and in my case "getting a Ph.D." became the functional and social equivalent of "passing the imperial examinations."
 
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  • #107
chill_factor said:
whats wrong with non-research technical fields?

Or research technical fields.

A lot of the barriers turn out to be psychological. There is part of me that says "finance... eehhhhhhwww", but after a lot of effort, I've managed to get that part of me to shut up.

Now getting around psychological barriers turns out to not be the easiest thing in the world, since you are going against decades of socialization. But it's doable, and changing the way that you look at the world is easier than changing the global economic and political system, and in a lot of situations, it's not as if you have much of a choice.
 
  • #108
deRham said:
To be clear: we don't even have to reduce tenured professors' salaries or the permanence.

Yes you do.

Once you have a department that is mostly long term researcher, then the next question is why those people aren't on the major committees and in administration. Once you put those people in positions of power, then the question comes up as to why the tenured professors have tenure.

Now you can reach a deal in which *current* tenured faculty are grandfathered, and tenure is dead for *new* hiring. But make no mistake, that this is the end of tenure. In some industries, notably the auto industry, this was the "grand bargain" that was reached in the 1980's, and even there you had to do a lot of financial stuff to keep paying pension and retiree medical benefits.

I just mean that tenure sounds like hitting a jackpot, and a few superstars can have that. I think we'd just have a total of more productive researchers if they had a reasonable way of pursuing their research other than hitting that jackpot.

One thing about tenure is that if you go back to the 1950's, it *wasn't* that unusual. Most unionized industrial workers in the 1950's were under contract with tenure like provisions. These mostly disappeared in the 1970's and 1980's.

OTOH, maybe it's not such a bad thing. The reason those provisions disappeared was the belief that inflexible labor regulations prevented economic flexibility by making it difficult for people to go into the industry where they would do the most economic and social good. One reason this argument needs to be taken seriously is that it might be true. I'm not doing exactly what I want, but it's hard to make an argument that I'd be generating more economic or social value working in university versus what I'm doing now.

There is clearly something between permanent and strictly temporary, which probably would be a desirable enough alternative for someone who spent 7 years doing a physics PhD out of liking it, instead of doing a different job which pays much more for roughly that energy.

I don't think there is politically. One other problem here is that one has to look from the point of view of society. My personal job satisfaction really isn't that important to most people in the grand scheme of things.

One other problem is that if there were a politician who could credibly argue for fewer tenure protections in exchange for better treatment of non-tenure faculty and graduate students, I'd at least listen to them, but the politicians that are anti-tenure are also strongly anti-academia, so I'm going to side with the tenured faculty when there is a dispute (and it's been a major issue in Texas.)
 
  • #109
Mute said:
If university administrations could get away with eliminating tenure without increasing salaries or foreign hirings and still have quality candidates, why haven't they tried?

Because most university administrators come from the tenured faculty, and political power in most universities is in the hands of the faculty committees who are composed of tenured faculty. The other thing is that professors aren't line workers, and if they get pushed too hard, they will strike, and get the President removed.

In the case of public universities, you have some power in the hands of politicians, and at least in Texas, there's been a major war on tenure, which Governor Perry (fortunately) has been losing.

Also *new* universities have effectively gotten rid of tenure. Witness University of Phoenix, that has a ton of adjuncts, and a very, very few permanent faculty.
 
  • #110
deRham said:
I suppose it comes down to a judgment call; it will certainly become just as hard to get for those remaining. However, I'm hardly proposing that every last person in the planet should have a faculty position.

I don't think it would be bad. Everybody has something to teach, and everybody has something to learn.

Personally, I think that the world would end up better off if instead of graduating 1000 physics Ph.D.'s/year it was graduating 100,000. Part of what I've been trying to figure out is what that sort of world would look like.

I think the problem is when people show themselves very capable of handling the pace, rigor, etc and still have an absurdly low chance at continuing their research. It's hard to deny that's wasteful.

It really depends on what else they end up doing. It's worked out pretty well for me.
 
  • #111
Isn't it a good thing that most PhDs don't stay in academia? What good is it to society if they stay in the ivory tower? I think as long as students get realistic career advice, they won't be so bitter. (But really, are most bitter about academia because of bad career advising, or because of unfair treatment?)

ParticleGrl said:
To be fair, this seems to be largely because they didn't know

If they didn't know, they should have said they didn't know. They must have at least known how many students they had, and how many they knew and didn't know about. So they probably knew they didn't know, in which case they were fabricating numbers.
 
  • #112
twofish-quant said:
Or research technical fields.

A lot of the barriers turn out to be psychological. There is part of me that says "finance... eehhhhhhwww", but after a lot of effort, I've managed to get that part of me to shut up.

Now getting around psychological barriers turns out to not be the easiest thing in the world, since you are going against decades of socialization. But it's doable, and changing the way that you look at the world is easier than changing the global economic and political system, and in a lot of situations, it's not as if you have much of a choice.

what if your math is anywhere from horrible to average? how is finance even remotely an option for those in experimental fields?

i do not think this is just a psychological barrier. sorry. most people in experimental aspects of biomedical engineering, materials science, condensed matter physics and chemistry would not be able to go to finance because they do not know enough math and programming.
 
  • #113
ParticleGrl said:
The hope is that the extra postdocs, because they are well-trained scientists, keep productivity in the lab up and reduce the need for students.

The trouble is that this starts looking a lot like how business and law schools work, and to me it seems that the cure is worse than the disease. Personally, I think that we are going the wrong way when we start talking about *reducing* the number of physics Ph.D.'s. We really should be talking about *vastly increasing* the number of physics Ph.D.'s.

There's an old joke. A genie shows up and tells a farmer that he can wish for anything. "My neighbor has a cow and I don't, I want you to kill his cow." If we are going to do fundamental social engineering, it would be better to increase demand than reduce supply.

The implicit assumption I made when I heard "PhDs in physics enter industry" was that phds in physics enter industry TO DO PHYSICS.

If the problem is definitions, then just tell my boss to change my business card to read "econophysicist." As far as I'm concerned, I'm doing physics.

The political bodies fund physics to get research done, not to produce physicists for the finance industry.

You know you have a good system when good things happen even though people didn't intend for it to happen. I need to point out that I don't sell insurance. I'm actually doing pretty cool physics research. My one big annoyance is that I can't publicly tell anyone exactly what I'm doing without getting into trouble with my boss and the SEC.

But it's cool.

If everyone (including your professors) tells you what a great career path science is, why wouldn't you believe them?

A lot depends on what you consider a "great career." I've had a great career so far, and it doesn't look like its going to stop anytime soon. Some of it is personal. For me "adventure" is more important than money, and it's been a wild and interesting adventure so far.

If I wanted a "connect the dots" life, I wouldn't have gone physics.

If everyone says there is a huge shortage of American scientists, why wouldn't you believe them?

I think that people stopped talking about a shortage of American scientists around 2005. Also, none of my professors talked a lot about the shortage of scientists, because they came from the generation that was screwed over in the physics crash of the 1970's.

You look around and say "well, not everyone gets to be a professor, but surely all these physicists go on to work as industrial physicists of some kind."

And physics Ph.D.'s that work in investment banks are industrial physicists.
 
  • #114
chill_factor said:
what if your math is anywhere from horrible to average? how is finance even remotely an option for those in experimental fields?

It depends on the meaning of average. If your math skills are "average or somewhat below average for a Ph.D." that's not a problem. Also people from experimental fields usually have lots of experience in computer programming, instrument design and statistics which is very, very useful in algorithmic trading.

There are some issues with finance:

1) People in finance are extremely closed lipped about what they are doing. Part of this is cultural (i.e. would you put your money in a bank that gives out account numbers to anyone that asks) some of it legal. For example, if you are working on an algorithm for a new financial product, even *hinting* that you are about to market the product will get a ton of lawyers, regulators, and compliance people on your case.

2) It changes from month to month. Asking someone about the employment situation is like asking about the weather.

3) The only near absolute requirement for physics Ph.D. finance is that you have to be winning to move to NYC, London, or some city in Asia.
 
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  • #115
atyy said:
Isn't it a good thing that most PhDs don't stay in academia? What good is it to society if they stay in the ivory tower?

That implies its better for society to have trained physicists doing something other are than physics. That isn't obvious to me. Isn't it better for physicists to be doing physics/engineering and laying the ground work for tomorrow's ipads than for them to be doing jobs that require no knowledge of physics?

Sure, a physicist can learn to do data mining or finance, but what does society gain from paying to teach someone physics, only for them to leave and teach themselves some other field? Sure, a physicist can learn finance or data mining, but what does society gain from the superfluous training? They could have totally skipped the learn physics step.
 
  • #116
ParticleGrl said:
That implies its better for society to have trained physicists doing something other are than physics. That isn't obvious to me. Isn't it better for physicists to be doing physics/engineering and laying the ground work for tomorrow's ipads than for them to be doing jobs that require no knowledge of physics?

Sure, a physicist can learn to do data mining or finance, but what does society gain from paying to teach someone physics, only for them to leave and teach themselves some other field? Sure, a physicist can learn finance or data mining, but what does society gain from the superfluous training? They could have totally skipped the learn physics step.

It's not superfluous - it's basic facts about the universe that everyone should know - just like knowing the sun goes round the earth;) - ok, maybe not now, but in 20-30 years. By the same token, I assume that by now, physicists all know about the double helix and action potentials, which 60 years ago was cutting edge biology.
 
  • #117
twofish-quant said:
It depends on the meaning of average. If your math skills are "average or somewhat below average for a Ph.D." that's not a problem. Also people from experimental fields usually have lots of experience in computer programming, instrument design and statistics which is very, very useful in algorithmic trading.

There are some issues with finance:

1) People in finance are extremely closed lipped about what they are doing. Part of this is cultural (i.e. would you put your money in a bank that gives out account numbers to anyone that asks) some of it legal. For example, if you are working on an algorithm for a new financial product, even *hinting* that you are about to market the product will get a ton of lawyers, regulators, and compliance people on your case.

2) It changes from month to month. Asking someone about the employment situation is like asking about the weather.

3) The only near absolute requirement for physics Ph.D. finance is that you have to be winning to move to NYC, London, or some city in Asia.

A PHD in what? what if its not physics? what if its some other science or in engineering? and even if it is physics, there's a lot of things different now.

i am working with a Physics grad student. He takes pictures with an AFM and measures DC conductivity. I'm responsible for device fabrication. These are commercial instruments. There's no need to design anything new with them, just know how to use them. I've never seen an experimentalist in materials science program much. everything is on commercial instruments. just know how to use them and interpret their results.

what statistics? we use excel and find mean, median, mode, standard dev and fit it to a curve. i don't think this is the type of statistics you had in mind, it certainly isn't enough for finance.
 
  • #118
ParticleGrl said:
Isn't it better for physicists to be doing physics/engineering and laying the ground work for tomorrow's ipads than for them to be doing jobs that require no knowledge of physics?

I think "keeping the world financial system from collapsing again" is socially useful, and trying to do that involves a ton of "econophysics." I know fairly senior people with physics/math Ph.D.'s that are involved in these sorts of "fate of the entire world" discussions.

Sure, a physicist can learn to do data mining or finance, but what does society gain from paying to teach someone physics, only for them to leave and teach themselves some other field?

Because everything in finance has already been written down in textbook, the typical physics Ph.D. can learn in about a month or so. The important stuff isn't in a textbook, because either it's "tacit unwritten knowledge" or its stuff that no one knows. Also the textbooks are often wrong.

So what you need is someone that is good at research and mathematical modelling. It also makes sense to train these people on "known unknowns." I can't train someone to do mathematical modelling of the world financial system of 2020 or even 2015, because I don't know what the problems are going to be. So have them work on black holes or stellar nucleosynthesis, so that they have the skills necessary to work on whatever comes up in 2020.

Sure, a physicist can learn finance or data mining, but what does society gain from the superfluous training? They could have totally skipped the learn physics step.

If investment banks didn't have to hire Ph.D.'s, they wouldn't. The have to so they do.
 
  • #119
atyy said:
It's not superfluous - it's basic facts about the universe that everyone should know - just like knowing the sun goes round the earth;) - ok, maybe not now, but in 20-30 years. By the same token, I assume that by now, physicists all know about the double helix and action potentials, which 60 years ago was cutting edge biology.

I think you have an over-optimistic view of the speed of information propagation, at least in physics. Grab a dozen condensed matter physicists, and maybe 1 or 2 can describe the standard model, and that's decades old. Grab a few dozen college grads and ask them to describe general relativity and probably none can, and that's approaching a century old. You'd be lucky if half could get the laws of thermodynamics.

But what does society gain if the guy pricing financial derivatives once calculated a 2 loop diagram?
 
  • #120
chill_factor said:
A PHD in what? what if its not physics? what if its some other science or in engineering? and even if it is physics, there's a lot of things different now.

Whatever is fun.

i've never seen an experimentalist in materials science program much. everything is on commercial instruments. just know how to use them and interpret their results.

My background is astrophysics and everything you build for a telescope has to be pretty much custom manufactured.

what statistics? we use excel and find mean, median, mode, standard dev and fit it to a curve. i don't think this is the type of statistics you had in mind, it certainly isn't enough for finance.

In HEP and astrophysics, there is a ton of what is essentially pattern recognition and time series analysis, along with dealing with massive databases.
 
  • #121
twofish-quant said:
Whatever is fun.



My background is astrophysics and everything you build for a telescope has to be pretty much custom manufactured.



In HEP and astrophysics, there is a ton of what is essentially pattern recognition and time series analysis, along with dealing with massive databases.

we have a totally different background then. that is why we have communication problems.

in materials science, almost everything is commercial and there's rarely statistics beyond excel. everything can be done on excel and mathematica. you don't need too much math.
 
  • #122
I don't think it would be bad. Everybody has something to teach, and everybody has something to learn.

Yeah, I guess I should revise to say: I am not proposing every physics (or for that matter mathematics) PhD be given a faculty position in which the goal is to produce as much physics as possible (there may be other faculty positions to better suit them; heck, I may decide that one of these other positions better suits me some day, but of course, under the current system, that won't mean I'll even have a reasonable choice). Many will decide it simply isn't what they want to do, and the pace expected is not healthy for everyone. But I would definitely say (as I think many have probably said) that the current system seems to have certain obvious (yet still difficult to push for) avenues to encourage people who probably would do well for themselves in such a career.

It really depends on what else they end up doing. It's worked out pretty well for me.

Somehow, I get the feeling you're the odd one out :) I do not deny that doing a physics or math PhD is a tremendously enriching thing, but the question is how good the second or third or whatever next best thing to the ideal faculty position the given individual obtains. I find that for whatever reason (maybe just lack of the right knowledge), the option a lot of people end up with is far enough from ideal that I'd call the current system wasteful.
 
  • #123
Once you have a department that is mostly long term researcher, then the next question is why those people aren't on the major committees and in administration. Once you put those people in positions of power, then the question comes up as to why the tenured professors have tenure.

There would definitely be more tenure-track researchers under my vision. In effect, you seem to suggest the middle will question who's at top. I say as someone at the bottom that I question who is in the middle.

I think my belief stems from the fact that there are definitely a few absurdly strong leaders in any field, whose tenure I simply couldn't question, simply because I could never claim to want to work alongside them at that level.

Effectively, I'd rather have more people actually doing research than worry about long-term researchers bickering about not having tenure. The reason I don't like the current system is that I find even at the graduate level, whoever made the cut went through a really strict screening process, and I'm sure the same holds for the next stage. I found there is a high level of randomness in this process except for a few truly stars who became virtually unquestioned authorities in their areas.
 
  • #124
ParticleGrl said:
I think you have an over-optimistic view of the speed of information propagation, at least in physics. Grab a dozen condensed matter physicists, and maybe 1 or 2 can describe the standard model, and that's decades old. Grab a few dozen college grads and ask them to describe general relativity and probably none can, and that's approaching a century old. You'd be lucky if half could get the laws of thermodynamics.

But what does society gain if the guy pricing financial derivatives once calculated a 2 loop diagram?

condensed matter guys don't need to know the standard model of particle theory though. they don't even need to know that nuclei are anything except tiny positive blobs most of the time. i think you're right on relativity (i know nothing about relativity, at least) but thermo is easy and everyone should get that.

i think that excitement vs. pay and ease of study vs. easy of employment both follow inverse laws.
 
  • #125
ParticleGrl said:
But what does society gain if the guy pricing financial derivatives once calculated a 2 loop diagram?

Because anyone who has done a 2 loop diagram has experience dealing with path integrals.

If you take an interest rate curve and evolve it over time stochastically. You get very quickly into functional calculus and path integrals. Now add shocks, correlations, and defaults, you get into very complicated path integrals.

Now maybe there is a way of modelling interest rates without (implicitly) having a path integral, but it's going to take someone really good at modelling physical systems to work this all out. Hmmm... I wonder were we can find those.

But wait there is more...

Once you've *finished* calculating the path integral, then you have to explain what you did to a regulator or manager that doesn't know what a 2 loop diagram is.
 
  • #126
twofish-quant said:
Yes and no. There is a balance here, because if you keep money and power *only* for your kids, then eventually people on the outside will form their own counter-elite and you lose...

Well it's not quite *only*. But 96% of stockbrokers from public schools is pretty blatant. So why haven't Brits developed a counter-elite? Please don't say not enough time! The British money & power elite has been going since 1066...
 
  • #127
ParticleGrl said:
... what does society gain from the superfluous training? They could have totally skipped the learn physics step.

Society says that until BSc level you can get to learn what you want. If you love physics then you can do physics! This makes 'the establishment' look like nice people... it keeps the more educated youngsters from changing riots into revolutions. If society let's you 'play' until you are 21, then you lose a lot of motivation for attacking the establishment. "How can I burn down a bank?" I ask myself. "This society paid for me to have a wonderful eduction, to study exactly what I wanted well into adulthood." So the physicist moves meekly into a low level bank job, the stockbroker stays rich as Croesus, and everybody is happy, especially the stockbroker...
 
  • #128
ParticleGrl said:
I think you have an over-optimistic view of the speed of information propagation, at least in physics. Grab a dozen condensed matter physicists, and maybe 1 or 2 can describe the standard model, and that's decades old. Grab a few dozen college grads and ask them to describe general relativity and probably none can, and that's approaching a century old. You'd be lucky if half could get the laws of thermodynamics.

But what does society gain if the guy pricing financial derivatives once calculated a 2 loop diagram?

Because he does many things other than pricing financial derivatives. Maybe one day he'll be president of the US. Already happened in Germany, but ironically I'm not sure many physicists are agreeing with a no nuclear policy!
 
  • #129
ParticleGrl said:
No, I assumed having a broad physics background (thermo, electrodynamics,mechanics, etc)

Have you had thermo? Stat mech, sure, but actual, real thermo? Heat and mass transfer, and all that. Could you, for example, design a BTG (boiler-generator-turbine) system?

Also, if you decide that you want to graduate half as many students and double their chances to find their dream job, you'll move the bottleneck upstream, so getting into grad school will be twice as hard. People will complain "it's not fair! I got A's all through undergrad and I still didn't get into grad school!"

It also means that there will be less of a track record when you decide who moves on and who does not.
 
  • #130
Vanadium 50 said:
Have you had thermo? Stat mech, sure, but actual, real thermo? Heat and mass transfer, and all that. Could you, for example, design a BTG (boiler-generator-turbine) system?

Yes, I've had an honest-to-god thermo class. All the staring at steam tables I could take. I've done textbook/test calculations for boilers and engines, and I designed and built a small fridge for the lab I worked in during undergrad.

Also, if you decide that you want to graduate half as many students and double their chances to find their dream job, you'll move the bottleneck upstream, so getting into grad school will be twice as hard. People will complain "it's not fair! I got A's all through undergrad and I still didn't get into grad school!"

But that's much better for people overall. You burn less human capital. You tell them no before they've spent a decade or more being trained.
 
  • #131
People will complain "it's not fair! I got A's all through undergrad and I still didn't get into grad school!"

In fact, I don't even think it's necessary to graduate fewer people. It's fine as long as they're honest and go: "Look at the faculty at nearly any school. Nearly everyone got a PhD from an awesome school that tons of straight A students get rejected from every single year"; I'm sure a lot of people would rather spend those years doing a PhD anyway. If someone told me I had no chance getting a faculty position today, I don't think I'd change paths.

People already get rejected from tons of strong programs after straight A's in undergrad. They still have a chance of attending a less selective program and publishing something great while there, to boost chances at getting a good job. In some cases, people with straight A's but little more to show really aren't researchers in the making - having straight A's simply doesn't mean someone will want to be on the forefront of researching physics.

The only thing I'm really against here is to take a bunch of people with similar talent and work ethic, and not only promote one but completely discard the rest. It seems too random, and it clearly loses people with good ideas without reason; well, twofish-quant gave good reasons why the system is hard to change (e.g. dealing with people who effectively don't value academia at all), but nobody has given good reasons thus far saying that the change wouldn't be welcome.
 
  • #132
It's not like there are no jobs for Ph.D. in technical fields. The problem is those jobs require you to relocate (like most jobs anyway), move to another field (most likely), and perhaps even do some extra traveling...
 
  • #133
I also remembered that I have some friends and a cousin that got PhD in Engineering (my cousin PhD in Physics), and all the ones that have jobs relocated, and changed fields. The ones that do not have jobs were not willing to relocate or change field. My cousin is in finance.
 
  • #134
Is academia a scam? Not in the sense of what the OP that was describing. However, it does have a side to it which is the biggest scam that has ever been played in the entire history of the world. That scam would be enticing people who wouldn't otherwise go to university into taking worthless degree programs with the promise of getting that safe, secure high paying job. You know what I'm talking about, the myriad of worthless liberal arts majors.

Of course there are some fields that really do require the kind of specialized training that universities and (where applicable) graduate schools provide, like science, engineering, medicine, law and probably one or two others. But the rest? The rest are nothing more than temping little children into the gingerbread house to be eaten alive by the wicked witch of 50%+ dropout rates, crippling debts and no job prospects.

Universities are not the only guilty parties, our higher educational system used to have a better balance between university (for those with the capability) and vocational training. Employers are also to blame for the "have a 4 year degree in anything we don't care what it is but we probably won't hire you anyway" approach, leading to rampant degree inflation and the idea that you have to bury yourself in student loans to get anything. The high school system is also to blame for mindlessly encouraging people who can't handle those "good fields" I mentioned to go into universities anyway.

Perhaps the finest example of the insanity of our system is how few startups are started by business majors. You'd think it would be more, but I haven't met a single business major who is seriously considering starting his/her own business. I'm sure some of them are out there, although they are after management jobs. But when those bureaucratic type jobs aren't available, like now, they either get a menial low wage service job (like restaurants) or go back to school to bury themselves in more debt. In both scenarios they are just crossing their fingers and hoping things turn around so they can get that job.
 
  • #135
I also remembered that I have some friends and a cousin that got PhD in Engineering (my cousin PhD in Physics), and all the ones that have jobs relocated, and changed fields.

Emphasis mine. I think the point of this thread is that a physics phd isn't sold as "get this phd, then change fields to something other than physics/engineering, then get a job." Its sold as "get this phd so you can work as a physicist." Thats the "scam" as it were.
 
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  • #136
I'm going to cite a bit of reality from where I sit: We need physicists to do the research. But we don't need very many. We need legions of engineers to translate that research into a usable reality. And we need even more writers to document this stuff, business majors to manage the creations and sales people to sell it.

Our schools have sold a lot of people on the idea of being at the very edge of the wedge to use physics to benefit society. They have ignored the transfer of that technology to a useful application.

For example, many of the discoveries with Graphene are truly astounding. But the research is only the very first step into making something useful happen. There is no shame for the Ph.D. types to point the Engineers in the right direction to show them how to scale these discoveries to something useful. But even here, as much as we need innovation, what we really need is marketing so that the innovative products can become a part of society. The Ph.D. doesn't convey the practicalities of application. It goes the other direction: It shows you how to conduct research, not apply what has been discovered.

Engineers have to take the practical world, the standards, the limits, and set conservative performance goals so as to build something reliable that people will use and want more of. It is a completely different way of thinking about problems.

Schools have failed us because we aren't educating our population on the things it will take to improve society. We have an excess of scientists, Engineers are few in number and generally treated with polite contempt ("If you want to get the product out the door, you must first shoot the engineer."). Marketing is filled with people who are interested in psychology, but are shockingly ignorant of the foundations that built our society such as Physics, Chemistry, Biology, Mathematics, or even Classic Literature.

Our schools are failing us because from our first days in Pre-School we fill our children with this self-actualizing nonsense that is guaranteed to cause pain and hurt the first time they ever try a real challenge. We tell our kids they can be anything they want to be. And while that's true, they not only have to want it, they have to have some sort of talent for whatever it is they seek.

So we have legions of Physics students drawn like moths to a flame. And who can resist? It's a great study with the possibility of having your name known for centuries. It can have long-lasting fame. Yeah, it attracts smart people the same way that Hollywood attracts pretty actresses. The vast majority of them will be lucky to eke out a living. Meanwhile, there are other activities all around that people are ignoring because of the siren song...

Remember that the people who made the real fortunes from the 1849 gold rush to California were not the miners themselves, but the shrewd businessmen who figured out what these people needed and how to get it to them at a price they were able to pay.
 
  • #137
ParticleGrl said:
Emphasis mine. I think the point of this thread is that a physics phd isn't sold as "get this phd, then change fields to something other than physics/engineering, then get a job." Its sold as "get this phd so you can work as a physicist." Thats the "scam" as it were.

Maybe you were just ill-informed. There are dishonest things in academia, but I can't imagine that this was one of them (especially for HEP theory).
 
  • #138
mal4mac said:
Well it's not quite *only*. But 96% of stockbrokers from public schools is pretty blatant. So why haven't Brits developed a counter-elite?

Because the elite is flexible enough to absorb anyone that may oppose them. In the 18th century being elite in British society meant having a noble title and having a country manor. If the people in charge of Britain had stuck to that definition of elite, then they would have lost their power.

So the people in power, changed the definitions of elite to mean a degree from Oxbridge and a job in the city. They then made sure that their kids got the degrees and the jobs, but they left just enough room for new people so that anyone that has the ability to overthrow the system, "sells out" and gets a nice job doing something that won't challenge the power of the people running things.

A hundred years ago, the British Labour Party was waving red flags and sing the Internationale, and you end up with New Labour and Tony Blair.

If you want an example of where an elite failed to absorb new people and lost power to a counter-elite, look at the Ascendancy in Ireland.

Please don't say not enough time! The British money & power elite has been going since 1066...

And if they play their cards right, they'll be in charge for the next thousand years.

It's mostly a matter of convincing anyone that might overthrow the system to join the system. Something similar happened in the US. In 1900, the major northeastern universities were finishing schools for the WASP Boston Brahmin establishment. The schools that came up with ways of letting people into the club, where able to survive and increase their power.

The only way of getting rid of an elite that isn't totally incompetent is to have a massive and usually bloody revolution, in which the people in charge get shot, and usually that ends up being a lot worse than what you started off with, because you end up with people in charge that not only are greedy and power-hungry, but homicidal, ruthless and crazy. Been there, done that.
 
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  • #139
deRham said:
I think my belief stems from the fact that there are definitely a few absurdly strong leaders in any field, whose tenure I simply couldn't question, simply because I could never claim to want to work alongside them at that level.

I've noticed that in mathematics, there *are* prodigies, but this usually isn't true in other fields. It's not true in computational astrophysics because you need lots of people to debug code, and it doesn't matter how smart you are. If you have someone that is totally brilliant, then without people doing "grunt work" they are nothing.

The reason I don't like the current system is that I find even at the graduate level, whoever made the cut went through a really strict screening process, and I'm sure the same holds for the next stage. I found there is a high level of randomness in this process except for a few truly stars who became virtually unquestioned authorities in their areas.

I don't see how you can avoid a high degree of randomness. You just got too many smart people, and when you have that situation and you care about fairness, then what you end up with is basically random selection. If you have three places and fifty qualified people that would all be good at the job, then randomly selecting people is going to really be the only fair process.

Also relying on "stars" really isn't fair. I've noticed that things are different in pure mathematics where there are prodigies that seem to have some innate math ability, but in astronomy, the ability to do research means being able to beg, borrow, or steal computer and telescope time. If you "reward" people with good research with even more scarce resources, you pretty quickly end up with a situation in which people with resource access get even more access.

The other thing is that randomness isn't bad. If the people in power think that they really deserve what they got, they can get really nasty. If it's commonly realized that social status is a matter of luck, then people tend to be nicer to people that are unlucky because it was only fate that kept them from going down that route. Most people don't know that the term "meritocracy" came from a 1958 satire in which Michael Young argued that a "meritocracy" was a recipe for social revolution.
 
  • #140
JakeBrodskyPE said:
I'm going to cite a bit of reality from where I sit: We need physicists to do the research. But we don't need very many. We need legions of engineers to translate that research into a usable reality. And we need even more writers to document this stuff, business majors to manage the creations and sales people to sell it.

Our schools have sold a lot of people on the idea of being at the very edge of the wedge to use physics to benefit society. They have ignored the transfer of that technology to a useful application.

For example, many of the discoveries with Graphene are truly astounding. But the research is only the very first step into making something useful happen. There is no shame for the Ph.D. types to point the Engineers in the right direction to show them how to scale these discoveries to something useful. But even here, as much as we need innovation, what we really need is marketing so that the innovative products can become a part of society. The Ph.D. doesn't convey the practicalities of application. It goes the other direction: It shows you how to conduct research, not apply what has been discovered.

Engineers have to take the practical world, the standards, the limits, and set conservative performance goals so as to build something reliable that people will use and want more of. It is a completely different way of thinking about problems.

Schools have failed us because we aren't educating our population on the things it will take to improve society. We have an excess of scientists, Engineers are few in number and generally treated with polite contempt ("If you want to get the product out the door, you must first shoot the engineer."). Marketing is filled with people who are interested in psychology, but are shockingly ignorant of the foundations that built our society such as Physics, Chemistry, Biology, Mathematics, or even Classic Literature.

Our schools are failing us because from our first days in Pre-School we fill our children with this self-actualizing nonsense that is guaranteed to cause pain and hurt the first time they ever try a real challenge. We tell our kids they can be anything they want to be. And while that's true, they not only have to want it, they have to have some sort of talent for whatever it is they seek.

So we have legions of Physics students drawn like moths to a flame. And who can resist? It's a great study with the possibility of having your name known for centuries. It can have long-lasting fame. Yeah, it attracts smart people the same way that Hollywood attracts pretty actresses. The vast majority of them will be lucky to eke out a living. Meanwhile, there are other activities all around that people are ignoring because of the siren song...

Remember that the people who made the real fortunes from the 1849 gold rush to California were not the miners themselves, but the shrewd businessmen who figured out what these people needed and how to get it to them at a price they were able to pay.

one small comment:

there are far fewer physics majors than EE majors at the undergrad level but at the grad level there's more because more proportion of physics majors go to grad school than EE majors.

it is also because it is objectively easier to get money for projects in physics, rather than projects in EE.
 
<h2>1. What is "exponential growth" in academia?</h2><p>Exponential growth in academia refers to the rapid increase in the number of researchers, publications, and funding in the academic world. This growth can be seen in various fields, including science, technology, engineering, and mathematics.</p><h2>2. How does exponential growth affect postdocs?</h2><p>Exponential growth in academia has led to an increase in the number of postdoctoral researchers, as there are more opportunities for research and funding. However, this also means that there is more competition for postdoc positions, making it more challenging for postdocs to secure permanent positions.</p><h2>3. What are the benefits of doing a postdoc until the age of 40?</h2><p>Doing a postdoc until the age of 40 can provide several benefits, such as gaining more experience and expertise in a specific field, building a strong publication record, and networking with other researchers. It can also increase the chances of securing a permanent position in academia or industry.</p><h2>4. Are there any downsides to doing a postdoc until the age of 40?</h2><p>One potential downside of doing a postdoc until the age of 40 is the delay in starting a stable career and potentially earning a higher salary. It can also lead to burnout and work-life balance issues, as postdocs often work long hours and face high levels of competition and pressure.</p><h2>5. How can universities and institutions support postdocs over the age of 40?</h2><p>To support postdocs over the age of 40, universities and institutions can offer mentorship programs, career development resources, and funding opportunities for mid-career researchers. They can also create a more inclusive and diverse environment that values the contributions of postdocs of all ages.</p>

1. What is "exponential growth" in academia?

Exponential growth in academia refers to the rapid increase in the number of researchers, publications, and funding in the academic world. This growth can be seen in various fields, including science, technology, engineering, and mathematics.

2. How does exponential growth affect postdocs?

Exponential growth in academia has led to an increase in the number of postdoctoral researchers, as there are more opportunities for research and funding. However, this also means that there is more competition for postdoc positions, making it more challenging for postdocs to secure permanent positions.

3. What are the benefits of doing a postdoc until the age of 40?

Doing a postdoc until the age of 40 can provide several benefits, such as gaining more experience and expertise in a specific field, building a strong publication record, and networking with other researchers. It can also increase the chances of securing a permanent position in academia or industry.

4. Are there any downsides to doing a postdoc until the age of 40?

One potential downside of doing a postdoc until the age of 40 is the delay in starting a stable career and potentially earning a higher salary. It can also lead to burnout and work-life balance issues, as postdocs often work long hours and face high levels of competition and pressure.

5. How can universities and institutions support postdocs over the age of 40?

To support postdocs over the age of 40, universities and institutions can offer mentorship programs, career development resources, and funding opportunities for mid-career researchers. They can also create a more inclusive and diverse environment that values the contributions of postdocs of all ages.

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