Questions on more advanced topics of number theory. Consider first if (elementary-number-theory) might be a more appropriate tag before adding this tag.

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2
votes
2answers
17 views

a root of some polynomial over finite field

I think this is a really basic question, but it had been a little while since I dealt with this material and I was hoping to get a bit of assistance here. Let $q = p ^{2M}$ for some prime $p$ and $M ...
0
votes
0answers
12 views

Idele for a rational number q=63/550 .

Wikipedia, in its article "p-adic number", has taken an arbitray number x=63/550 to show the p-adic absolute value with respect to different primes. Obviously, the p-adic absolute value is 1 for ...
1
vote
1answer
19 views

A functional equation over integers

I was working in a problem in number theory and I blocked over the problem : Given functions $f:\mathbb{Z}\rightarrow \mathbb{Z}$, $g:\mathbb{Z^2}\rightarrow \mathbb{Z}$ and ...
0
votes
1answer
12 views

solve $k(k-1) \geq \ln2*2m$ for k

My Question is related to the birthday problem. Starting at $e^{-\frac{k(k-1)}{2m}} \leq 0.5$ i used $ln(x)$ on both sides and multiplied by $-2m$ to get $k(k-1) \geq \ln2*2m$ According to my ...
0
votes
1answer
42 views

The diophantine equation $a^7+b^7=7^c$

Determine all the triples of positive integers $a,b,c$ such that $a^7+b^7=7^c$.
1
vote
1answer
27 views

If $a+bi$ is in $E_k$ then $a-bi$ is also in $E_k$?

I'm currently studying the properties of the Motzkin sets $E_k$, $k\in\mathbb{N}\cup\{0\}$ of the ring $\mathbb{Z}[i]$. The definition of $E_k$ is as follows: $E_0=\{0\}$, $E_1=$units of ...
0
votes
2answers
32 views

Understanding why the public exponent $e$ is chosen the way it is in RSA

I am trying to get a better understanding of RSA. At the moment I am unable to understand the difference between the correctly chosen value of the public exponent $e$ and other possibilities ...
1
vote
0answers
16 views

Transforming the cubic Pell-type equation for the tribonacci numbers

The Lucas and Fibonacci numbers solve the Pell equation, $$L_n^2-5F_n^2=4(-1)^n\tag1$$ The tribonacci numbers $z = T_n$ are positive integer solutions to the cubic Pell-type equation, $$27 x^3 - 36 ...
2
votes
2answers
36 views

Solving Linear Congruences With The Euler Totient Functio

I've been asked to calcualte $15^{123456789012345}$ mod $2500$. Now I worked out $\varphi(2500)=1000$ but I can't use Euler's theorem here because $1000$ and $2500$ aren't coprime. Can anyone offer ...
-4
votes
0answers
53 views

Tidy numbers — a conjecture. [on hold]

Tidy numbers --- a conjecture. Coprime indicator is $1$. Tidy $k$-tuple is the non-deranged sequence of integers of cardinality $k$, overlayed with the least prime factors $\leq k$. Tidy number is ...
1
vote
1answer
48 views

Every element of field $F_q$ has $k$th root if and only if $\gcd(q-1,k)=1$

Help me please to prove that: For any $k \in \mathbb{N}$ each element of field $F_q$ is the $k$-th power of some element from that field if and only if $GCD(q-1, k)=1$. My approach Let's look ...
1
vote
1answer
28 views

Solving Linear Congruences With Euler Totient Function

I've been asked to solve the following congruence $x^{1667}\equiv2$ $mod$ $2500$. Am I right in saying there's no solution modulo 2500 to this congruence since even though 1667 is coprime to ...
0
votes
0answers
25 views

Polynomial/ Exponential diophantine equation

I am looking for the reference characterizing all the cases when $$an^2+bn+c=2^m$$ has infinitely many positive integer solutions (m,n). Thanks.
3
votes
1answer
33 views

Solving A Certain Diophantine Equation

I am stack on finding the solution of the diophantine equation: $d(2^{k+1}-1)-b^2(2^{k+1}-2)=1$. where $k\geq 1$ and $b^2>d$ for $b$ an odd composite integer. Is there a solution to this ...
0
votes
0answers
30 views

Number theory and Group theory [on hold]

Can you give me any task which contains Number theory and Group theory?
8
votes
2answers
87 views

A number $N$ is a $k$-nacci number if and only if …

For $k\ge 2\in\mathbb N$, one can define the $n$-th $k$-nacci number $f_k(n)\ (n=0,1,\cdots)$ as $$f_k(0)=f_k(1)=\cdots=f_{k}(k-2)=0,\ \ ...
1
vote
0answers
26 views

e Online source for alternative proofs

I'm looking for some alternative proofs for various theorems. My goal is to compile a list of various proofs each relating to a specific theorem (such as the triangle inequality, Fermat's Little ...
2
votes
3answers
86 views

Collatz conjecture: Largest number in sequence with starting number n

This question is inspired by a CS course, and it only tangentially relates to the actual content of the exercise. Say in a hailstone sequence (Collatz conjecture) you start with a number n. For any ...
1
vote
1answer
37 views

All possible number combinations in decimal represenation of irrational numbers?

This question is directly inspired by "Does Pi contain all possible number combinations?". I would like to state firstly for the record that I have no serious number theory education. I think I ...
3
votes
1answer
27 views

Asymptotic formula for sums of powers of reciprocals of primes

Is there an explicit asymptotic formula, in terms of $\alpha$, for the expression $$\displaystyle \sum_{p \leq x} \frac{1}{p^\alpha}$$ for $0 < \alpha < 1$? The case $\alpha = 1$ is supplied by ...
1
vote
0answers
25 views

On a congruence for the number of finite topologies

I am making search about "On a congruence for the number of finite topologies". I have found a paper. I guess it is written in Russian. How can I find English version of this paper ? I am also ...
3
votes
1answer
30 views

Origin of period function model of primes

There is a web page attributed to Omar Pol, "Sobre el patrón de los números primos: Determinación geométrica de los números primos y perfectos." ("On the pattern of primes: Geometric Determination of ...
1
vote
1answer
45 views

What books do you recommend on mathematics behind cryptography?

I am currently reading the Book Understanding Cryptography from Cristof Paar. I am enjoying the book but i don't like to scratch the surface when it comes to cryptography. I would like do dig a little ...
11
votes
1answer
97 views

Are $121$ and $400$ the only perfect squares of the form $\sum\limits_{k=0}^{n}p^k$?

I've been looking for perfect squares that can be represented as $\sum\limits_{k=0}^{n}p^k$. Of course, both $n$ and $p$ should be natural numbers larger than $1$. Searching up to $n=100$ and ...
0
votes
0answers
15 views

How to expand powers of multiple pairwise commuting elements in a group [on hold]

Let (G, $\ast$) be a group and let n $\in\aleph$. Prove that if $g_1,...,g_k\in G, k\in\aleph$ are pairwise commuting elements of G, then $(g_1\ast...\ast g_k)^n$=$g_1^n\ast ...\ast g_k^n$
1
vote
1answer
23 views

Proofed: Every number in the sequence of powers of 2 have $phi = 1/2 * 2^x$

I want to know if it's proofed, that every number which is in the number sequence of the powers of $2$ has an $\phi$ of $\frac12x$.
1
vote
1answer
58 views

Induction proof involving Euler Totient Function

Let $\varphi$ be the Euler totient function Qi) show that if $r$ is a power of a prime number then $\sum_{d|r} \varphi(d) = r.$ Qii) Show that if $n \geq 2$ then there is a decomposition of n as a ...
1
vote
0answers
16 views

Understanding how to estimate $\pi(x)$ based on Paul Erdos's proof of Bertrand's Postulate

I am reading the 4th Edition of Proofs from the Book. I am not clear on how the proof behind Bertrand's postulate leads to the following statement on page 10 (of my edition): From (2) one can ...
2
votes
0answers
22 views

Nebentypus of contragredient representation

Let $k$ be a local non-archimedean field with ring of integers $\cal O$ and maximal ideal $\frak p$. Let $\pi$ be an irreducible admissible $\infty$-dimensional representation of $\text{GL}_2(k)$ ...
5
votes
1answer
73 views

The number of divisors of a number whose sum of divisors is a perfect square

Let $n$ denote a non-prime whose sum of divisors is a perfect square. I have noticed a few surprising facts on the number of divisors of $n$: It is either prime or semi-prime or $27$ in all cases ...
1
vote
0answers
31 views

Clever use of Pell's equation

Find infinitely many triples $(a,b,c)$ of positive integers such that $a,b,c$ are in arithmetic progression and such that $ab+1$, $bc+1$, and $ca+1$are perfect squares. The solution is: Consider the ...
1
vote
0answers
29 views

Strict total ordering

I'm not able to understand how the below relation is example of "strict total order". Consider a set $X = 2^Y$ where $Y = \{1,2,3,4,5,6,7,8,9\}$. The expected order of $X$ is for all $x, y$ ...
4
votes
0answers
70 views

Are there infinitely many $N^3$ (especially for prime $N$) that cannot be expressed as a sum of three positive cubes?"

Well few days ago i asked a question on perfect numbers and Tito Piezas III answered the question in a very intriguing way which has helped me to get a lead on it.But his answer and perfect numbers ...
4
votes
1answer
40 views

Two question about ${\mathbb Q}(\alpha)$ for $\alpha$ := $\sqrt[n]{7}$ + $\sqrt[n+3]{7}$

Let $\alpha$ = $\sqrt[n]{7}$ + $\sqrt[n+3]{7}$ with $n$ not divisible by $3$. Prove that $[{\mathbb Q}(\alpha) : {\mathbb Q}] = n(n + 3)$. Conclude that $\alpha$ is constructible if and only if $n = ...
4
votes
1answer
80 views

Trying to understand a step in Ramanujan's Proof of Bertrand's Postulate regarding the gamma function

My question relates to this step in the proof here: But it is easy to see that $$\log \Gamma(x)-2\log\Gamma(\frac12x+\frac12) \le \log\left\lfloor ...
2
votes
1answer
62 views

Multiples of 3 and 5. [on hold]

If we have the Tartaglia(Pascal) triangle in every row which numers are multiples of 3 which are even and which are multiples of 5?
1
vote
1answer
22 views

Understanding Bézout's identity

I'm trying to understand a proof of Bézout's identity ($gcd(a,b)=$ smallest linear combination of $a$ and $b$), and I'm having some trouble following the last step. The proof goes by: Let $m=sa+tb$ ...
1
vote
2answers
34 views

Is there a subset of natural numbers with a special property

Let set $A$ be an infinite big subset of the set $\mathbb{N}$ (set of natural numbers),it is not equal to $\mathbb{N}$ and it has the following property: For every $a$ that is not from the set $A$ ...
1
vote
1answer
26 views

How to solve second order congruence equation if modulo is not a prime number

the equation is $x^2 = 57 \pmod{64}$ I know how to solve equations like (*) $ax^2 +bx +c = 0 \pmod{p}$, where $p$ is prime and i know all the definitions for like Legendre's Symbol and all of the ...
0
votes
1answer
12 views

Partition of fractional parts where each sum of them has to be at least 1

Let $ a_1,\ldots,a_t \in \mathbb{Q} \setminus \mathbb{Z} $ be with $ \sum_{i=1}^t \lbrace a_i \rbrace \in \left[k,k+1\right) $ for some $ k \in \mathbb{N} $ with $ k \ge 4 $. Here $ \lbrace x \rbrace ...
4
votes
1answer
38 views

Integer solutions to a two variable equation.

For $m, n \in \mathbb{Z}$, show the only integer solutions to $f(m,n) = \displaystyle \frac{3^m(2^n+1)-2^{m+n}}{2^{m+n}-3^{m+1}}$ are $f(1, 2) = -7$, $f(0, 1) = -1$, and $f(0, 2) = 1$. More ...
6
votes
1answer
171 views

Can the cube of every perfect number be written as the sum of three cubes?

I found an amazing conjecture: the cube of every perfect number can be written as the sum of three positive cubes. The equation is $$x^3+y^3+z^3=\sigma^3$$ where $\sigma$ is a perfectnumber (well it ...
5
votes
0answers
62 views

Which prime gaps are known to exist [duplicate]

It is easily proved that prime gaps can be arbitrarily large by constructing the sequence of composites $(n+1)! + 2, (n+1)! + 3, \dots, (n+1)! + (n+1)$, which are divisible by $2, \dots, n+1$ ...
5
votes
3answers
96 views

Finding the possible Least Common Multiples of of numbers with Highest Common Factor 8

The Highest Common Factor of two numbers is 8. Which one of the following can never be their Least Common Multiple? The choices are as follow: A. 8 B. 12 C. 60 D. 72 The answer key states ...
2
votes
0answers
27 views

Asymptotics of $\sum_{\mathfrak{a}}\frac{n^{k-\epsilon}}{\mathfrak{N}\left(\mathfrak{a}\right)^{r\left(k-\epsilon\right)}}$

In this paper by Brian D. Sittinger, the following claim is made: For an algebraic number field $K$ with norm $\mathfrak{N}$, let $\epsilon=\left[K:\mathbb{Q}\right]^{-1}$. Then, taking the sum over ...
0
votes
2answers
30 views

all the squares in the multiplicative group $\mathbb{Z}_n^*$. [on hold]

I just want to know what this statement means: "all the squares in the multiplicative group $\mathbb{Z}_n^*$."
5
votes
2answers
52 views

Diophantine equation not solvable in $\mathbb{Q}$, but in $\mathcal{O}_p$

I'm trying to think of an example of a diophantine equation which can be solved in $ \mathcal{O}_p$ (meaning it can be solved $\mod p^k$ for all $ k $) for all prime $ p $'s, but not in $\mathbb{Q}$ ...
4
votes
1answer
44 views

Finitely Many Extensions of Fixed Degree of a Local Field

How does one show that there are only finitely many degree $n$ extensions of a local field? I understand how this follows from class field theory in the Abelian case but don't understand how to do the ...
1
vote
0answers
27 views

Hensel's lemma in $n $ variables

I'm trying to find a proof for the following formulation of Hensel's lemma: $$\text{Let } f \in \mathbb{Z}[x_1, \dots, x_n], a = (a_1, \dots, a_n) \text{ be such that (with } p \text{ prime)}$$ $$ ...
14
votes
2answers
277 views

Numbers that are divisible by the number of primes smaller than them

Let $\pi(n)$ denote the number of primes less than or equal to $n$ (a.k.a the prime-counting function). For certain values of $n$, the value of $\frac{n}{\pi(n)}$ is integer. Here are the first few ...