In the Preface of the first German Edition of the book Problems and Theorems in Analysis by George Pólya and Gábor Szegő, one can read [emphasis mine] :

The chief aim of this book, which we trust is not unrealistic, is to accustom advanced students of mathematics, through systematically arranged problems in some important fields of analysis, to the ways and means of independent thought and research. It is intended to serve the need for individual active study on the part of both the student and the teacher. The book may be used by the student to extend his own reading or lecture material, or he may work quite independently through selected portions of the book in detail. The instructor may use it as an aid in organizing tutorials or seminars.

This book is no mere collection of problems. Its most important feature is the systematic arrangement of the material which aims to stimulate the reader to independent work and to suggest to him useful lines of thought. [...]

The origin of the material is highly varied. We have made selections from the classical body of knowledge of mathematics and also from treatises of more recent date. We collected problems which had in part already been published in various periodicals and in part communicated to us verbally by their authors. We have adapted the material to our purpose, completed, reformulated and substantially expanded it. In addition we have published here for the first time in the form of problems a number of our own original results. We thus hope to be able to offer something new even to the expert.

To put it briefly, I think that the description of the key features that distinguish this book which is given in the preface is perfectly appropriate. With respect to these aspects, I regard this book as a sort of introduction to the methods, the ideas, and the results of mathematical research.

It is actually the first book of this kind which I have ever come across, and I've really enjoyed going through it. So, the natural question that I pose is:


Are there other similar books (in analysis or also different topics) that are in the spirit of Pólya and Szegő's work? That is, are there other books that are actually introductions to mathematical research in the sense which is implied by the emphasized parts of the passage quoted above?

  • $\begingroup$ Advanced Mathematical Methods for Scientists and Engineers by C. Bender and S. Orszag comes to my mind instantaniously (the title is misleading, this is very serious math book on asymptotic methods) $\endgroup$
    – tired
    Jun 10 '18 at 14:48

Note: Your question is really a challenge, cause the book you're pointing to as reference is a first-class evergreen of highest rank.

So, I was thinking: Which books give me a similar feeling when I am going through them as the classic by Pólya and Szegő and which of them could also play in the same leaque? One other criteria was, that they should provide a reasonable thorough survey through a part of mathematics.

The first two books which came into my mind:

Enumerative Combinatorics by Richard P. Stanley

An outstanding classic to study combinatorics with an enormous wealth of examples and solutions from easy to really hard. E.g. example 6.19 of Volume $2$ provides you with $66$ different combinatorial structures related with the ubiquitous Catalan Numbers.

Applied and Computational Complex Analysis by P. Henrici

is a classic on Complex Analysis from 1977. The keyword in this 3 volume set is applied. You will by guided through lots of enlightning examples, which help you to study complex analysis and become familiar with this part of mathematics. In fact I found this book only a few years ago. I was curious that so many papers had referenced P. Henrici's book. But since I've bought it and read parts of it with great pleasure I know the reason! :-)

  • $\begingroup$ Thank you very much. Judging from your previous suggestions, these two books must be really awesome. I'll try to have a look at them and I'll let you know. If anything else comes to your mind, please, don't hesitate to add it. :) $\endgroup$
    – Dal
    Feb 27 '15 at 22:11
  • $\begingroup$ @Dal: Thanks for your nice comment! :-) $\endgroup$
    – epi163sqrt
    Feb 27 '15 at 22:20

There is a fine book by Laszlo Lovasz "Combinatorial Problems and Exercises". See (Wikipedia) http://en.wikipedia.org/wiki/L%C3%A1szl%C3%B3_Lov%C3%A1sz or (Amazon) http://www.amazon.co.uk/Combinatorial-Problems-Exercises-Chelsea-Publishing/dp/0821842625/ref=sr_1_1?ie=UTF8&qid=1424531944&sr=8-1&keywords=Combinatorial+Problems+and+Exercises . Since you like George Polya check out his two volume "Mathematics and Plausible Reasoning" (ISBN-10: 1614275572).


I like Larson's "Problem Solving Through Problems."


Also here is a link to a list of a multitude of problem books.


Also here is a link to Prof. Noam Elkies website that has problems that might be of interest:


  • $\begingroup$ @Dal Clearly you are making a concerted effort. I might respectfully suggest that you take some solace that there is a multitude of outstanding and helpful participants here, and to the extent that your question is still operative might imply that you have done about the best you can. I might make two suggestions (from my very low level): there are numerous unsolved problems in math that are not codified in a book, and you might search out some of them in an area(s) of interest. Or, though there is a big overlap here with mathoverflow users, I dont know the qualifications, you might ask there. $\endgroup$
    – user12802
    Mar 8 '15 at 22:06

I don't think any book can be deemed "an intro to research" but attempts have been done to present it opposite to something less elusive like math competitions. (Less elusive does not mean that competing is easier.) One such book, written by people strong in both is disciplines is

An Invitation to Mathematics: From Competitions to Research


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