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I have to apologize because this is not the normal sort of question for this site, but there have been times in the past where MO was remarkably helpful and kind to undergrads with similar types of question and since it is worrying me increasingly as of late I feel that I must ask it.

My question is: what can one (such as myself) contribute to mathematics?

I find that mathematics is made by people like Gauss and Euler - while it may be possible to learn their work and understand it, nothing new is created by doing this. One can rewrite their books in modern language and notation or guide others to learn it too but I never believed this was the significant part of a mathematician work; which would be the creation of original mathematics. It seems entirely plausible that, with all the tremendously clever people working so hard on mathematics, there is nothing left for someone such as myself (who would be the first to admit they do not have any special talent in the field) to do. Perhaps my value would be to act more like cannon fodder? Since just sending in enough men in will surely break through some barrier.

Anyway I don't want to ramble too much but I really would like to find answers to this question - whether they come from experiences or peoples biographies or anywhere.

Thank you.

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    $\begingroup$ I think you'll find many mathematicians which are widely-perceived to be very good or even at the top of their field may think (or have thought) that they're not particularly talented. Sometimes the skill one brings to mathematics is precisely the enthusiasm for finding an answer to a particular question. In that regard I'd say many mathematicians which in retrospect have found "important" discoveries are simply people that were in the right place at the right time. The more you discover the more your "nose" for discoveries develops. $\endgroup$ Oct 26, 2010 at 17:04
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    $\begingroup$ @Ryan Also, very many of us have at least a few people we perceive to be vastly better than ourselves: it's easy to downgrade your own perceived talent when you have a role model you feel you're not living up to. I've even been in situations where I've talked to the people I don't feel I'm able to keep up with, and hear them tell me they view me in that same way. $\endgroup$ Oct 26, 2010 at 18:49
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    $\begingroup$ @Mikael, yes, that's always a funny situation to find oneself in. In that regard there's the potential for the "familiarity breeds contempt" dynamic in mathematics. In some sense everything we study is by design tautologies -- having a proof of something means you know it's true, period. So once you really know a proof, it seems simple. But to someone unfamiliar with the context it may seem like a huge labrythine maze full of mysterious connections. $\endgroup$ Oct 26, 2010 at 18:57
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    $\begingroup$ With my idealist hat on, I have always loved the following G. K. Chesterton quote. From memory: "A man must love a thing very much if he not only practices it without any hope of fame or money, but even practices it without any hope of doing it well." $\endgroup$ Oct 26, 2010 at 23:44
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    $\begingroup$ Wtf is up with the close reason? "This is no longer relevant"?! "Not likely to help future visitors"? "Only relevant to an extraordinarily narrow situation that is not generally applicable to the worldwide audience of the internet"? This is one of the most generally relevant questions on the site and is relevant to anyone who is not a Gauss/Euler and is considering a career in mathematics. Other close reasons could be acceptable, but this one is not. $\endgroup$
    – Hjulle
    May 28, 2018 at 7:45

16 Answers 16

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It's not mathematics that you need to contribute to. It's deeper than that: how might you contribute to humanity, and even deeper, to the well-being of the world, by pursuing mathematics? Such a question is not possible to answer in a purely intellectual way, because the effects of our actions go far beyond our understanding. We are deeply social and deeply instinctual animals, so much that our well-being depends on many things we do that are hard to explain in an intellectual way. That is why you do well to follow your heart and your passion. Bare reason is likely to lead you astray. None of us are smart and wise enough to figure it out intellectually.

The product of mathematics is clarity and understanding. Not theorems, by themselves. Is there, for example any real reason that even such famous results as Fermat's Last Theorem, or the Poincaré conjecture, really matter? Their real importance is not in their specific statements, but their role in challenging our understanding, presenting challenges that led to mathematical developments that increased our understanding.

The world does not suffer from an oversupply of clarity and understanding (to put it mildly). How and whether specific mathematics might lead to improving the world (whatever that means) is usually impossible to tease out, but mathematics collectively is extremely important.

I think of mathematics as having a large component of psychology, because of its strong dependence on human minds. Dehumanized mathematics would be more like computer code, which is very different. Mathematical ideas, even simple ideas, are often hard to transplant from mind to mind. There are many ideas in mathematics that may be hard to get, but are easy once you get them. Because of this, mathematical understanding does not expand in a monotone direction. Our understanding frequently deteriorates as well. There are several obvious mechanisms of decay. The experts in a subject retire and die, or simply move on to other subjects and forget. Mathematics is commonly explained and recorded in symbolic and concrete forms that are easy to communicate, rather than in conceptual forms that are easy to understand once communicated. Translation in the direction conceptual -> concrete and symbolic is much easier than translation in the reverse direction, and symbolic forms often replaces the conceptual forms of understanding. And mathematical conventions and taken-for-granted knowledge change, so older texts may become hard to understand.

In short, mathematics only exists in a living community of mathematicians that spreads understanding and breaths life into ideas both old and new. The real satisfaction from mathematics is in learning from others and sharing with others. All of us have clear understanding of a few things and murky concepts of many more. There is no way to run out of ideas in need of clarification. The question of who is the first person to ever set foot on some square meter of land is really secondary. Revolutionary change does matter, but revolutions are few, and they are not self-sustaining --- they depend very heavily on the community of mathematicians.

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    $\begingroup$ Thank you very much for your short essay; it looks like something a mathematician wrote from the heart, and I feel slightly more appreciative of mathematics than before after reading it. $\endgroup$ Oct 30, 2010 at 3:03
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    $\begingroup$ @J.M. Thematically this is similar to a (much longer) essay Dr. Thurston wrote several years ago, which I highly recommend: arxiv.org/abs/math/9404236 Actually, I may as well take the opportunity for a personal remark: Dr. Thurston, thank you so much for writing that essay. It's had an incalculable effect on how I view myself as a mathematician, and it's one of those papers that I've read and re-read "until the pages fell off." Really, thanks. $\endgroup$ Oct 30, 2010 at 10:43
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    $\begingroup$ @J.M, @Harrison Brown, thanks for the comments. I try to write what seems real. By now, I have no cause to fear how I will be judged, which makes it much easier for me. It's gratifying when my reality means something to others. $\endgroup$ Oct 30, 2010 at 17:10
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    $\begingroup$ This seems like an ideal counterpoint to Hardy's Lament. I'm calling it Thurston's Paean :). Seems poignant now that he has passed. $\endgroup$ Aug 22, 2012 at 22:39
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    $\begingroup$ @akvadrako Dr. Thurston was a professor of both mathematics and computer science so I don’t think he lacked this understanding. I cannot read either of your minds but might it be the case Dr. Thurston was thinking of machine code (binary) and you of higher-level languages (which one might reasonably call humanised binary)? Even in higher level languages, much like the Chinese Room argument, does a human executing an integration algorithm by hand understand the mathematical concept? $\endgroup$
    – 11684
    Mar 11, 2019 at 11:40
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I had the privilege of discussing similar concerns with regard to theoretical physics with the late Richard Feynman. He told me the following, which has always served me in good stead: "You keep on learning and learning, and pretty soon you learn something no one has learned before." That was his "advice"; my advice? Go for it!

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    $\begingroup$ Hironaka said much the same to me in my first year in grad school. It was something like, "You may think you'll never prove a theorem, but if you study a subject long enough, soon you'll see that you are proving something new in it." $\endgroup$
    – Lubin
    May 31, 2011 at 3:35
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    $\begingroup$ I just love this. $\endgroup$
    – Jon Bannon
    Apr 17, 2012 at 15:50
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You don't have to be Michael Jordan to play basketball.

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    $\begingroup$ I'm not kidding. $\endgroup$ Oct 26, 2010 at 18:04
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    $\begingroup$ Nor even to play basketball well. And certainly not if it suffices to enjoy playing basketball. $\endgroup$
    – JBL
    Oct 26, 2010 at 18:16
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    $\begingroup$ But 90 percent (or more) of those who WANT a career in professional basketball will never make it. Unfortunately, they are now in high school saying, "I'll in the NBA, so I will never need to know algebra." Sorry, a little off-topic... $\endgroup$ Oct 26, 2010 at 19:38
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    $\begingroup$ Gerald, my wife knew a guy in high school who was a pain in math, and generally disruptive in lecture, telling the instructor that he didn't need to learn that stuff, because his dad was an actor, and he was going to become one. Of course, he did, and became filthy rich, and he not once has needed math to this day. $\endgroup$ Oct 26, 2010 at 21:00
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    $\begingroup$ A co-author friend of mine sometimes says that people who leave academia for Wall Street at the end of the day may end up being the ones that contribute the most to mathematics (say, by funding an institute, or donating to a department). I still hope that a friend (and officemate during grad school) will decide to create the Hawaii Mathematics Research Institute, and offer me a permanent position there. $\endgroup$ Oct 27, 2010 at 5:27
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I appreciate the OP's question, but it seems to me that

One can rewrite their books in modern language and notation or guide others to learn it too but I never believed this was the significant part of a mathematician work; which would be the creation of original mathematics

is a widely-held fallacy. Perhaps 90% of the work of mathematicians is not brilliantly original creation, but the challenge of digesting and reworking over the cumulative insights and re-presenting them in a useful way for others (this generation and the next). This is a huge task, and it's often a very satisfyingly creative task which will well reward one with new insights, understanding of consequences of the major insights, and understanding their underpinnings.

And part of this is: teach and write well. Good exposition is perhaps the most important contribution that "lesser mortals" can make (and perhaps our collective livelihood depends on it -- Rota has some perceptive things to say about that in his Indiscrete Thoughts). You can get started on this even as an undergraduate: once you have understood something, share it with others. Give a good talk in your local math club. Pay it forward!

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    $\begingroup$ While I certainly agree that exposition and teaching are extremely important, I strongly disagree with the notion that 90% of the work of mathematicians is "the challenge of digesting and reworking over the cumulative insights and re-presenting them in a useful way for others". We prove theorems (new and original ones) too! I think it is important for young people to realize that math is so huge that even if you are pretty ordinary, there is plenty of room to have original insights and do good work. $\endgroup$ Oct 26, 2010 at 19:53
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    $\begingroup$ @Andy: yes, but if there aren't enough people around to organize everybody else's original insights and good work in a fashion that makes it possible to pass it on to the next generation, what's the point? I think we can all agree that the rate at which mathematics is currently being produced is higher than the rate at which any given person can learn it... $\endgroup$ Oct 26, 2010 at 19:57
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    $\begingroup$ Was it Erd\H{o}s who said, "Everybody writes, nobody reads."? $\endgroup$ Oct 27, 2010 at 2:53
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    $\begingroup$ Well, Erd\H{o}s wrote a lot of things. $\endgroup$
    – Todd Trimble
    Oct 27, 2010 at 5:52
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    $\begingroup$ "Does a theorem make a sound if nobody can understand it?" $\endgroup$ Oct 27, 2010 at 8:25
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Terry Tao wrote on this subject; I think you will be happy with his conclusions.

An excerpt: "The number of interesting mathematical research areas and problems to work on is vast – far more than can be covered in detail just by the “best” mathematicians, and sometimes the set of tools or ideas that you have will find something that other good mathematicians have overlooked, especially given that even the greatest mathematicians still have weaknesses in some aspects of mathematical research. As long as you have education, interest, and a reasonable amount of talent, there will be some part of mathematics where you can make a solid and useful contribution."

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    $\begingroup$ +1; Terence Tao's career advice is always worth a read. $\endgroup$ Oct 26, 2010 at 18:59
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    $\begingroup$ Also worth quoting from the same article: "It’s also good to remember that professional mathematics is not a sport" $\endgroup$ Oct 26, 2010 at 19:29
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    $\begingroup$ That article by Terrence Tao is a wonderful read. But particularly the sentence that Thierry Zell is quoting seems a bit too optimistic to me. Until one becomes a tenured professor, mathematics is exactly the sort of sport that Prof. Tao doesn't want it to be. That's just the brutal truth of any kind of competition for limited places. So while we like to think of ourselves as idealists, who do research with the sole aim of advancing knowledge, in practice many people are forced to spend time on "routine" maths to get enough publications, rather than on the things they find most interesting. $\endgroup$
    – Alex B.
    Oct 27, 2010 at 0:54
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    $\begingroup$ @Alex: good point, sad as I am to admit it. $\endgroup$ Oct 30, 2010 at 4:02
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Let met add two quotations:

  1. Fermat's motto was "Multi pertransibunt et augebitur scientia" (many will pass through and knowledge will be increased). At another occasion he wrote about "passing the torch to the next generation", which I find particularly nice.

  2. "When kings are building, carters have work to do". Kronecker quoted this, in his letter to Cantor of September 1891.

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    $\begingroup$ +1 for the Kronecker quote $\endgroup$
    – Yemon Choi
    Oct 30, 2010 at 0:50
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It's 12:40am New Year's Day, so maybe not the best time to be writing MO responses, but I loved reading everyone's encouraging answers to this question. (BTW: @Lubin: Taking algebra, with a dollop of algebraic number theory, from you was inspiring.) Anyway, my answer to the OP would be to learn lots and to work hard on problems that interest you. Don't worry so much about whether you're proving breakthrough theorems, just try as hard as you can to understand the parts of mathematics that interest you the most. (By "understand", of course, I mean get into the guts, figure out what's really going on, and prove as much as you can.) Also don't worry that you won't solve every problem (or even a majority of the problems) on which you work, and don't worry that you won't ever feel you fully understand everything about a problem; that's why there's always more to investigate. Then, after a decade or two, feel free to look back, and I think you'll find that you have made a contribution to humanity's knowledge of mathematics.

And even when you're doing research, it's hard (at least, I've found it hard) to decide on the significance of what you've done. I think the difficulty is that after working hard on a problem for a year or two and making enough progress to write a paper, one understands the problem so well that everything that one can prove seems trivial, while everything that's left undone seems hopeless. So maybe my saying "wait a decade or two" is a bit excessive, but it's definitely worth waiting a couple years before you decide on the quality of the work you've done.

Happy New Year to one and all at MO.

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    $\begingroup$ Wonderful words: " I think the difficulty is that after working hard on a problem for a year or two and making enough progress to write a paper, one understands the problem so well that everything that one can prove seems trivial,..." My colleague quite a famous algebraic geometer once said similar: "In mathematics everything is simple .... IF properly understood". My feelings are also the same. But why taking random article even in my field it will most probably not looks like "everything is simple" ? $\endgroup$ Jan 1, 2012 at 10:46
  • $\begingroup$ I mean what is the reason: either 1) people writing "bad" paper did not work enough hard to come to the point when "everything is simple"; OR 2) may be it is not true that "everything is simple" ? (Of course "everything" does not mean "absolutely everything", but let us say 90-95% of results , I think-hope should be "simple", but in current literature it may be 1% or .1% ) $\endgroup$ Jan 1, 2012 at 10:50
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    $\begingroup$ @Alexander Chervov: I think that you'll find that for most articles in your field, if you spend a year or two intensively thinking about the material, as the author did, then most of what's in the article will seem natural and simple. (Of course, that's not to say it was simple to discover and prove in the first place.) And as you say, there will be a certain number of articles for which this is not true. Plus there's the unfortunate fact that life is too short to spend that much time on very many articles. $\endgroup$ Jan 1, 2012 at 12:49
  • $\begingroup$ @Joe Silverman Thank you for answer and for your book, it is on table for both colleagues in academia and industry. $\endgroup$ Jan 1, 2012 at 16:53
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    $\begingroup$ @Joe Silverman "there's the unfortunate fact that life is too short to spend that much time on very many articles" sounds depressing... meaning that most of articles we write will never find their reader... The same is written by Timothy Gowers "gowers Says: November 7, 2011 at 3:21 pm ... I once heard that the average number of readers of a mathematics paper is less than 1. ... but assuming that there’s a long tail, there will be huge nubers of papers that people won’t have happened to read " gowers.wordpress.com/2011/11/03 $\endgroup$ Jan 1, 2012 at 17:00
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I'm not really qualified to answer this...or perhaps I am, since I'm no Terry Tao! I think what we bring to mathematics is the unique perspective afforded by our own individual experience. The more of us who are trying to do mathematics, the better, because this increases the diversity of perspectives in approaching the myriad problems we face. Also, as is popular to say, there is far more mathematics to do than any handful of powerful mathematicians can do. This is a "big tent".

Another thing that I've read someplace...someone was describing the difference between Kolmogorov and Israel Gelfand, and this person wrote/said the following: "when Kolmogorov went into a new mathematical landscape he immediately looked for the tallest mountain and climbed it, when Gelfand entered the same landscape, he immediately began building roads." (Someone please fill muad in on the proper location of this quote...I think it was the Notices...)

Others have said that most of what we do as mathematicians is organize and clean things up to clear the way for a future polymath, like a von Neumann, to really make some progress, and some road builders have built some unbelievable roads. (Didn't Serre say something like he spent most of his career rewriting other people's work?)

I don't know about you, but I'm fine with this! It's much better than having my name on the location of a transistor on some unknown circuitboard on the space shuttle...not that there's anything wrong with that!

Anyhow, don't worry about having things to do...there are plenty!

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    $\begingroup$ For more analogies of a similar kind, see Freeman Dyson's "Birds and Frogs": ams.org/notices/200902/rtx090200212p.pdf $\endgroup$ Oct 26, 2010 at 19:30
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    $\begingroup$ The thing about polymaths is paraphrased from Jean Dieudonné, where the polymath in question was Riemann. Further, he was talking about the Bourbaki project, not mathematics in general. Sorry to burst your bubble =(. $\endgroup$ Nov 14, 2010 at 5:46
  • $\begingroup$ No problem, Harry. Readers beware! $\endgroup$
    – Jon Bannon
    Nov 15, 2010 at 16:56
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    $\begingroup$ The quote is from Arnold $\endgroup$ Apr 12, 2014 at 13:12
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One possible way to think about this midnight question might be to ask what smaller results have been important or interesting to you, and then to appreciate the existence of the mathematicians who have discovered/invented it. My guess would be that everyone can compile a list of such results by players who are not in the league of Gauss and Euler. My own list would be quite long, and some of the results are recent enough to have been discovered by users of MO.

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If you are an undergraduate, you don't yet know what you can contribute to mathematics, and in particular you don't yet know whether, or at what level, you can create original mathematics. Fortunately, you don't have to work this out entirely for yourself; if you go on to graduate work in mathematics, you will have an advisor, whose job is to help you get the most out of your potential. Even after a student finishes a PhD, she's not alone; much of the best mathematical work today is collaborative, and whatever weaknesses you may think you have can be compensated for by the strengths of your collaborators (while you compensate for their weaknesses with your strengths).

It ain't easy, but it can be done.

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    $\begingroup$ I don't agree that an undergraduate can't create original mathematics, if that's what you mean to say. Maybe they require more help from an advisor than graduate students typically do, but that's no reason to discourage the OP or any undergraduate from trying to do new mathematics as soon as possible. $\endgroup$ Oct 27, 2010 at 16:49
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    $\begingroup$ I don't think you should discourage them, but I also think that it's extremely unhealthy for undergraduates to feel pressure to "do research". Most undergraduates (including most undergraduates who go on to top grad schools and end up becoming top researchers) don't prove any original theorems during their undergraduate years. $\endgroup$ Oct 27, 2010 at 16:56
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    $\begingroup$ Agreed, Andy: but "pressure" is not quite the sentiment I meant to express. Isn't it healthy for undergraduates who want to go into research to at least have some exposure to the practices of working mathematicians, even if they don't have actual research experience? That way, during the crucial period when they are first expected to produce original mathematics, the process doesn't seem so bewildering. This is more for the purpose of creating interesting mathematical narratives than publishing paper after paper, of course. $\endgroup$ Oct 27, 2010 at 19:29
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    $\begingroup$ Walking before running, and all that $\endgroup$
    – Yemon Choi
    Oct 27, 2010 at 20:39
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    $\begingroup$ I didn't mean to say that an undergraduate can't create original mathematics, only that no undergrad should feel she'll never create original mathematics just because, as an undergrad, she can't see how she's ever going to be able to do it. $\endgroup$ Oct 28, 2010 at 0:47
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I like the cannon fodder analogy -- made me laugh! I think of myself that way sometimes. Also, though, deep down I like to think I might be smarter than I realize. If I keep at it, maybe I will tap into some hidden reserves of insight. Also, remember the line from Ecclesiastes:

"I returned, and saw under the sun, that the race is not to the swift, nor the battle to the strong, neither yet bread to the wise, nor yet riches to men of understanding, nor yet favour to men of skill, nor yet theorems to mathematicians of brilliance; but time and chance happeneth to them all."

OK maybe the part about theorems is not in the original, but you get my point :-)

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    $\begingroup$ I love Orwell's translation of that into "modern English" from Politics and the English Language: "Objective considerations of contemporary phenomena compel the conclusion that success or failure in competitive activities exhibits no tendency to be commensurate with innate capacity, but that a considerable element of the unpredictable must invariably be taken into account." $\endgroup$ Nov 14, 2010 at 5:51
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    $\begingroup$ @Harry: Oh my how ugly. $\endgroup$
    – timur
    Aug 9, 2011 at 2:47
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On this issue I find a deal of comfort in the concluding paragraph of G. H. Hardy's A Mathematician's Apology:

The case for my life, then, or for that of any one else who has been a mathematician in the same sense which I have been one, is this: that I have added something to knowledge, and helped others to add more; and that these somethings have a value which differs in degree only, and not in kind, from that of the creations of the great mathematicians, or of any of the other artists, great or small, who have left some kind of memorial behind them.

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    $\begingroup$ Hardy was pretty clearly clinically depressed when he wrote that book. From a purely objective standpoint, it would have been much more reasonable for him to have written something like "I was arguably the best analytic number theorist, and the greatest British mathematician, of the first half of the twentieth century, and my reputation will be steadily on the rise more than 50 years after my death. That's pretty good, right?" $\endgroup$ Oct 27, 2010 at 7:44
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    $\begingroup$ Not really happy with that comment. The merciless quality of the writing there traces back to the Bloomsbury group (Hardy was on the edge of that clique). While we know he did suffer depression, it is a disabling condition by the time doctors should be involved, and not then one that allows for producing literary classics $\endgroup$ Oct 27, 2010 at 11:22
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    $\begingroup$ Is there any source for this diagnosis of depression other than C. P. Snow's foreword to AMA? $\endgroup$
    – Yemon Choi
    Oct 27, 2010 at 20:40
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    $\begingroup$ @Charles and Yemon: it was just a comment, and I am not a historian or a psychologist. Please add "I think" at the beginning of it. But here is what Rebecca Goldstein said in an interview available online: "He wrote the book after his first suicide attempt and before his second—and successful—suicide attempt." I also find, as I said more lightly above, an extreme under-estimate of his own worth and abilities. Maybe there are also other reasons for that, as Charles suggests. Anyway, to be sure, I can't "diagnose" anyone of anything; I can only state my opinion. $\endgroup$ Oct 30, 2010 at 8:39
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    $\begingroup$ I saw that Rebecca Goldstein interview; the information she gives on Hardy is incorrect in several places. Link: edge.org/3rd_culture/goldstein05/goldstein05_index.html She says Hardy was in his fifties when he wrote AMA, but the essay came out in 1940; he was born in 1877. "He wrote the book after his first suicide attempt and before his second—and successful—suicide attempt." No, his suicide attempt was in summer 1947, and his death in December 1947 wasn't a suicide AFAICT (indeed, Snow wrote that Hardy said he would not try again, that he was prepared to wait it out). $\endgroup$
    – Todd Trimble
    Oct 28, 2012 at 3:17
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Mathematics needs people to create, to explain, to synthesize, to apply, to teach, to learn, even to proselytize (in socially acceptable ways). If you want fame bordering on immortality, solve a very hard problem or create something that both solves and poses hard problems. If you want instead to be a great contributor to mathematics, do as much of the above as your heart and mind allow.

What would you like to do for mathematics?

Gerhard "Ask Me About System Design" Paseman, 2010.10.27

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Muad you raised not only a very important question but also a fairly enigmatic one. I completed my Maters in Mathematics 13 years ago and left mathematics then and there, what I realized during these years was that I could not sleep without thinking something new to discover or invent in pure mathematics. The numbers kept on haunting me. I was fascinated by Relativistic Mathematics as well had a great passion for Number Theory.I tried to find a suitable topic to do some original research work but left that to enter a totally different field. I opened a restaurant named e=mc^2. But still couldn't sleep well. So after running a successful talk-of-the-town restaurant for almost 4 years, I decided to turn to Computer Graphics, another of my passions as I was very involved in fine arts and poetry as well. Having graduated from Vancouver Film School, I am now a Computer Graphics Technical Director at a Visual Effects Studio, where I deal with mathematics in a more intimate way on a day to day basis. The point of all this autobiographical ramblings of mine is this : If you have the right motivation, and if you are curious enough, you have something to discover. My nights are still sleepless as I am yet to find something to discover !!!. So I think mathematics is inside you waiting for it to be discovered, just be passionate enough !!

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I suspect that most interesting mathematical results raise more questions than they settle, so in this case you would not have anything to worry about.

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@muad: You say you are not strong in mathematics. I don't know whether this is really such. But let's assume that you cannot do math discoveries for the purpose of this discussion.

You may do something else.

You may consider to write software for mathematics. One such project is TeXmacs. I would be grateful if you would manage to learn Scheme programming language and program proper creation of LaTeX macroses when exporting from TeXmacs to LaTeX.

Do you like my idea of what you can do?

I consider to take time to do this myself, but this would steal from my valuable time to do mathematics.

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    $\begingroup$ This is a nice and helpful answer. $\endgroup$
    – Gil Kalai
    Dec 19, 2010 at 21:08

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