# Solutions

Apostol, Tom M. Introduction to Analytic Number Theory. Springer-Verlag, New York, 1976.

I have completed the first three chapters and am done with the majority of the problems in chapter four. The solutions are in a pdf document that is constantly being updated. I have broken up the document into individual chapters below. The following are all in pdf format.

Van Lint and Wilson. A Course in Combinatorics (Second Edition). Cambridge University Press, 2001.

Edit: People have been using the solutions to copy them down for assignments rather than to learn from them. As a result, I’m taking them down, at least for now.

## 14 thoughts on “Solutions”

1. I have looked into your solutions – still am in fact- and have helped me a lot in my studies thanks.
Cannot wait to look at the other chapters π

2. saja says:

I need the rest of the chapters π¦ π¦ π¦

3. saja says:

I need the rest of the chapters π¦ π¦ π¦ of Introduction to Analytic Number Theory

• Sorry, I don’t have them!

4. Ross Pure says:

For question 1 part (b) in chapter 4, I believe the solution is 9*49 = 21*21 = 441, not 693.

• Yes, thanks for catching that! I have updated the solutions.

• Ross Pure says:

No problems (it’s a mere blemish on your solutions; really nice work). I too am self studying this book and your solutions have been helpful.

5. Mr. Biel says:

Thanks! I just finished chapter 4 too and have worked through most of the problems. Keep working through the book and updating your solutions!

• Shih-kung Wang says:

Dear Mr. Biel & Sean Li, I’m working on my own on Apostol & finished all problems for Ch. 4 except the very last, 30.(b). Can you give any hints? It sounds like just rearranging inequality expressions to arrive at his final: alpha*gamma <= alpha <= beta <= alpha*delta.
When I took his 2 inequalities from 30.(a) & also alpha<=beta from 28., it doesn't seem to follow?

6. Komal Goyal says:

It helped in me a lot specially in preparing my assignment ..Thanks . But I need solution of chapter 5 also. Kindly, provide it if possible.

7. Ramila says: