Questions tagged [number-theory]
Questions on more advanced topics of number theory, such as quadratic residues, primitive roots, prime numbers, non-linear Diophantine equations, etc. Consider first if (elementary-number-theory) might be a more appropriate tag before adding this tag.
28,699 questions
1
vote
0answers
10 views
Prove $F^* = \mu * F$
Let $f: \mathbb{Q} \cap [0,1] \to K$ and set $F(n) = \sum_{k = 1}^n f(\frac k n)$, $F^*(n) = \sum_{k = 1, (k,n) = 1}^n f(\frac k n)$.
Show that $F^* = \mu * F$ where $*$ is the Dirichlet product....
1
vote
2answers
61 views
Solve $a^3+b^3+3ab=1$ with $(a,b)\in \Bbb{Z}^2$
Solve the following equation for $(a,b)\in \Bbb{Z}^2$:
$$a^3+b^3+3ab=1$$
I tried all of the standard techniques I know. I tried modular arithmetic:
$$a^3+b^3+3ab\equiv 1 \pmod{3} $$
$$a^3+b^3\...
1
vote
2answers
42 views
Questions on Dirichlet's approximation theorem
In Wikipedia, the entry Dirichlet's approximation theorem states as follows:
In number theory, Dirichlet's theorem on Diophantine approximation,
also called Dirichlet's approximation theorem, ...
0
votes
2answers
41 views
How many triplets of consecutive primes $p$, $q$, $r$ are such that $p^2+q^2+r^2$ is also prime?
So we have $p$, $q$, $r$ which are successive prime numbers, we wonder how many such triplets are such that $p^2+q^2+r^2$ is also a prime.
My attempt: I tried to $p^2+q^2+r^2$ refactor it somehow, ...
0
votes
1answer
43 views
Sum of five-digit number is 10 problem
So sum of five-digit number is 10. And all the digits are different from each other. If we sum this number with a number written in reversed order of those digits, we will get a number that has same ...
0
votes
0answers
18 views
Is there a functor which is equivalent to discriminant of number field?
Let $K$ be a number field, i.e. a finite extension of $\mathbb{Q}$. The ring of integer $O_K$ is a free $\mathbb{Z}$-module. Let $\{ a_1, \cdots , a_n\}$ be a integral basis of $O_K$. Then,
$$
\...
2
votes
0answers
32 views
Number of partition of $n$ into sum of three squares, needing fast algorithm
Does anyone know how to find number of partitions of $n$ into sum of three squares with asymtotic time complexity faster than $O(n)$ ?
I found some info on https://oeis.org/A000164, but there are an $...
0
votes
0answers
18 views
Number of ordered pairs dividing 720
How many ordered pairs of natural numbers like $(a,b)$ exists such that $a$ and $b$ divide 720 but $ab$ doesn't?
my own idea was to solve in two cases: 1.a==b and 2.a!=b
I found answer 24 pairs for ...
2
votes
1answer
54 views
numbers that cannot be expressed in closed form?
Irrational numbers can be divided into two categories:
- Algebraic
- Transcendental
But there are some numbers that are roots of polynomial ie. are algebraic but cannot be expressed in closed ...
-1
votes
1answer
37 views
Non-negative integer solution for $ax + by = c$ [on hold]
Show that if positive integers $a$ and $b$ are relatively prime, then every integer $c > ab$ has the form $ax + by = c$, where $x$ and $y$ are non-negative integers.
According to the common way of ...
1
vote
3answers
53 views
Describe all integral solutions of the equation $x^2 + y^2 = 2z^2$ such that $x,y,z > 0$, gcd$(x,y,z) = 1$, and $x > y$.
As the title states, the question tasks me with finding all the integral solutions of the equation under the specified constraints. I have an idea of where to start due to a somewhat similar problem ...
0
votes
1answer
34 views
proving the fundamental theorem of arithmetic
The book is trying to prove the fundamental theorem of arithmetic but does he mean by saying that at least one of the inequality must be true with strict inequality ? And from where did he come up ...
1
vote
2answers
41 views
Partitioning $[1,v-1]$ into sets of size three such that the sum of each set is $3v/2$
Suppose that $v \equiv 4\;(\bmod 12)$. In general, is it possible to partition the integer interval $[1,v-1]$ into integer partitions of $3v/2$ with three distinct parts (with each part in $[1,v-1]$)? ...
0
votes
0answers
43 views
Why is the subject of math overall considered an essential for compulsory education/non-scientific circles/society overall? [on hold]
It would seem that math is pushed both scientifically and culturally as some sort of plethora of necessity. What really does math do for the layperson? Aside from basic counting and stuff, I can't ...
-4
votes
0answers
46 views
Does $a^a+b^b=c^c$ have any solution in $\mathbb{N}$? [on hold]
Just as the question implies. i'm curious if this equation have a solution contrary to Fermat Last theorem.
1
vote
1answer
70 views
Does digit $6$ always lead to $\ 25921=161^2\ $?
Consider prime numbers with the property that the product of the factorials of the digits plus $1$ is a perfect square, for example the prime $$30241$$ leads to the square $$3!\cdot 0!\cdot 2!\cdot 4!\...
1
vote
0answers
27 views
Clarification on this continued fractions question.
I would rather this not be solved for me , as its a homework question , I just want some clarification on whether I'm understanding it correctly.
Say we have the continued fraction $\alpha=[3,\bar{2}...
0
votes
0answers
22 views
Find the numbers of ordered array $(a,b,c,d)$ such $a^2+b^2\equiv c^3+d^3\pmod p$
Let $p$ be prime number,and such $p\equiv 1\pmod {12}$,Find the numbers of ordered array $(a,b,c,d)$ that satisfies the following conditions:
(1):$a,b,c,d\in \{0,1,2,\cdots,p-1\}$
(2):$a^2+b^2\equiv ...
-1
votes
0answers
29 views
Question about A Formula for factoring Fermat Numbers
Given Fermat Number $$N=2^{2^{k-1}}+1$$
I have a formula such that
inputting N and k into this formula it either:
(A) Gives a proper factorization N=e*s
when N is composite, and equals N when N is ...
0
votes
1answer
42 views
Easy proof of falsehood of $\pi(n) \leq C \cdot \text{ln}(n)$ for the prime counting function $\pi$
Let $\pi(n)$ be the number of primes in the range $1,\dotsc,n$.
The following statement is true: There is no $C>0$ such that $\pi(n) \leq C \cdot \text{ln}(n)$ for all $n\geq 1$.
It follows ...
-1
votes
0answers
27 views
Ramification Examples
Any help for seeking a totally tamely ramified extension of $\mathbb{F}_3$((X)), an unramified extension of $\mathbb{F}_3$((X)), a totally tamely ramified extension of $\mathbb{Q}_3$(i)? Feel ...
0
votes
1answer
20 views
Understand lattice definition and volume , algebraic number theory
I am taking the course algebraic number theory ( book J. Neukirch algebraic number theory ) and we reached a point where we are talking about the lattice I know that a lattice is a discrete subgroup ...
0
votes
1answer
42 views
Finding the quadratic polynomial of a continued fraction
Given $\alpha=[3,\bar{2},\bar{4},\bar{5}]=3+\tfrac{1}{2+\tfrac{1}{4+\tfrac{1}{5+...}}}$
I want to (i) find the quadratic integer polynomial P for which $\alpha$ is a root and (ii) hence write $\alpha$...
4
votes
3answers
119 views
Why is this proof of a congruence relation valid?
The following question comes from the 2012 Singapore Mathematical Olympiad (Open Section), Round 2.
Let $p$ be an odd prime. Show that $$1^{p-2}+2^{p-2}+3^{p-2}+\dots+\left(\frac{p-1}2\right)^{p-2}=...
1
vote
1answer
28 views
Solving a congruence mod 255 [on hold]
I would like to find the integer solutions of $128x^2+y^2 \equiv 0 \mod 255$
0
votes
0answers
22 views
question of legendre symbol [on hold]
Show that
$(1|p) + (2|p) + (3|p) + \cdots + (p − 1|p) = 0$, where $p$ is odd prime.
(Hint: Consider the total number of quadratic residues modulo $p$)
4
votes
3answers
107 views
prime numbers and expressing non-prime numbers
My textbook says if $b$ is a non-prime number then it can be expressed as a product of prime numbers. But if $1$ isn't prime how it can be expressed as a product of prime numbers?
2
votes
0answers
28 views
Looking for scientific papers about lotteries
Do you know any paper focusing on the statistical science and math behind lottery and number guessing games? I am creating a new one, where the winning numbers are known in advance, and the gain is ...
0
votes
4answers
88 views
If $ n^2+2 $ and $ n^2-2 $ are prime numbers, then $n$ is divisible by $3$.
If $n>1$ ($n \in \Bbb N$) and,if $ n^2+2 $ and $ n^2-2 $ are prime numbers, prove that $n$ is divisible by $3$.
I have been trying to solve this with no success.
0
votes
1answer
14 views
Can a variant of the Dirichlet eta function converge for negative numbers?
It is known that the Dirichelt eta function, defined by
$$
\eta(s)=\sum\limits_{n=1}^\infty\frac{(-1)^{n+1}}{n^s}
$$
converges conditionally on the open half-plane $\Re(s)>0$. This fact inspires ...
3
votes
3answers
112 views
Is there any rational number $x \ne 0$, where $e^x \in \Bbb{Z} $? [on hold]
Is there any rational number $x \ne 0$, where $e^x \in \Bbb{Z} $ ? How would we prove this?
Though this is quite an elementary seeming question I haven't been able to find any proof for it.
1
vote
1answer
50 views
The limit $\displaystyle \lim_{s\to 1}\left(\zeta_K(s)-\dfrac{\pi}{4(s-1)}\right)$.
Let $K=\mathbb{Q}(i)$ be the field of Gaussian rationals. Let $\zeta_K(s)$ be the Dedekind zeta function associated to K, defined by
$\displaystyle \zeta_K(s):=\sum_{\mathfrak{a}\subseteq \mathbb{Z}[...
0
votes
0answers
26 views
Citizens and rebels: a twin prime related categorization of composites
Assuming Goldbach's conjecture and denoting by $r_{0}(n)$ the quantity $\inf\{r>0,(n-r,n+r)\in\mathbb{P}^{2}\}$ for a large enough composite integer $n$, consider the sequence $(u_n)_n$ such that $...
2
votes
2answers
58 views
What is the probability that $\exists N \in \mathbb{N}$ such that $\forall n > N$, $2n \in C + C$?
Suppose $C$ is a random subset of $\mathbb{N}\setminus\{1, 2\}$, such that $\forall n \in \mathbb{N}\setminus\{1, 2\}$, $P(n \in C) = \frac{1}{\ln(n)}$ and the events of different numbers belonging to ...
1
vote
1answer
17 views
Bound of logarithmic integral function
Does logarithmic integral function bound from above the prime-counting function? In other words, does it hold that $\pi(x) \le li(x)$ or even $\pi(x)\le Li(x)$?
0
votes
0answers
36 views
the isomorphism of $\mathbb{Z}_{p}[x] /\left(x^{n}-1\right)$ using Hensel's Lemma
I an trying to prove the following.Let p:prime, $n\in\mathbb{N}$ with $(n,p)=1$
,and $x^{n}-1=f_{1}(x) \cdot \ldots \cdot f_{r}(x) \quad\left(f_{1}(x), \dots, f_{r}(x) \in \mathbb{Z}_{p}[x]\right.$ ...
1
vote
2answers
57 views
Prove $g$ is a generator if $g^q=1 \pmod p$
Let $p$ be an odd prime and let $q=\frac{p-1}{2}$. If $g^q=-1\pmod p$ and $q$ is a prime, show that $g$ is a primitive root mod $p$.
I want to show $\{g,g^1,...,g^{p-1}\}=\{1,2,...p-1\}$. I argue by ...
0
votes
0answers
33 views
Grothendieck Trace Formula Reference [on hold]
Does anyone have a good reference that would fully explain everything that is going on in the Grothendieck Trace formula (https://en.wikipedia.org/wiki/Grothendieck_trace_formula) assuming little to ...
6
votes
3answers
218 views
Will these geometric means always converge to $1/e$?
Let $p_n$ be the $n$-th prime and $F_n$ be the $n$-th Fibonacci number. We have
$$
\lim_{n \to \infty}\frac{(p_1 p_2 \ldots p_n)^{1/n}}{p_n}
= \lim_{n \to \infty}\frac{\{\log(F_3)\log(F_4)\ldots \...
0
votes
2answers
84 views
How would one explain the concept of a p adic number in layman's terms?
The concept of a p adic number is something that I haven't quite been able to grasp. Heretofore, I can comprehend the fact that the p adic number system essentially extends the conventional arithmetic ...
2
votes
0answers
26 views
Bounds for quotient of two amicable numbers
Let $a,b$ be amicable with $a$ being the smaller of the two numbers. Are there any bounds for $\frac{a}{b}$ ?
I looked online and found that there were maximal and minimal bounds but these do not ...
1
vote
3answers
41 views
If a,b are amicable numbers show that $(\sum_{d|a} d^{-1})^{-1} + (\sum_{d|b} d^{-1})^{-1}=1$
Amicable numbers are two different numbers so related that the sum of the proper divisors of each is equal to the other number. (A proper divisor of a number is a positive integer divisor other than ...
6
votes
2answers
101 views
Show that $(\binom{p^2}{p} -p ) $ is divisible by $p^5$, for every prime number $p, p\ge 5$
Show that $(\binom{p^2}{p} -p ) $ is divisible by $p^5$, for every prime number $p, p\ge 5$.
I have a combinatorics problem, and this is what it reduces to. I am not quite sure how to link the fifth ...
2
votes
1answer
24 views
Sums of divisors of an odd perfect square
Let $n^{2}$ be an odd perfect square. Under what conditions will:
$\sigma (n^{2})\equiv 0 \mod 5$
where $\sigma $ is the sum of divisors function.
-4
votes
0answers
31 views
Is the Euler-Mascheroni constant irrational? [on hold]
Please prove or disprove succinctly. $\gamma=\lim_{n\to\infty}[{H_n-\ln{n}}]$
1
vote
0answers
40 views
How could factordb apply the p-1-method on this number?
The following partial factorization
http://factordb.com/index.php?id=1100000001285565404
was used by factordb to prove this number ($\ 32^{2133}+4^{2133}+1\ $) to be prime.
http://factordb.com/...
4
votes
1answer
38 views
Topological Algebraic Independence of power series
Let $p$ be a prime number, let $x$ be a variable, and consider two power series over the ring $\mathbb{Z}_p$ of $p$-adic integers:
$a(x):=\underset{n\geq 1}{\sum}{\frac{p^n}{n!}x^n}=px+\frac{p^2}{2}x^...
2
votes
1answer
45 views
Congruence and quadratic residues
Let $p_1$, $p_2$, $p_3$ be distinct primes satisfying $p_1 \equiv p_2 \equiv p_3 \equiv 5 \pmod 8$, such that $p_i$ is a quadratic residue modulo $p_j$ for any $i\neq j$. Prove that, for any prime $p$,...
0
votes
1answer
32 views
How does Fermat's Little Theorem help find primitive roots of unity?
I am asked to find the primitive roots of unity mod 23, and recommended to use Fermat's Little Theorem to help simplify calculation. I know that, once I've found one, I can find all others by finding ...
-1
votes
1answer
58 views
A simple doubt in number theory problem for an even number, [duplicate]
I considered an even number $n\geq 9$, where it is divisible by some positive integer $k$.
Also, $k$ does not divide $\frac{n}{2}\ $ (negation of the hypothesis in my prior question).
Let $n = kq$.
...
