Retractions B

For every integer $n>1$, the family of functions $f_{n,a,b}$ is defined
by
$f_{n,a,b}(x)\equiv a x + b \mod n\,\,\, $ for $a,b,x$ integer and $0< a

This is a tricky problem that combines number theory and combinatorics.

A function $f_{n,a,b}$ is called a retraction if $f_{n,a,b}(f_{n,a,b}(x)) \equiv f_{n,a,b}(x) \mod n$ for every $0 \le x < n$. This is equivalent to checking the congruence $a(ax+b+nk)+b \equiv ax+b \mod n$ for $0 \le k < n$, which simplifies to $aa^2x+ab+a^2kn+ab \equiv ax+b \mod n$ for all $0 \le x < n$. Looking at the coefficients of $x$ on both sides, we see that $n | a^3 - a \implies n | a(a - 1)(a + 1)$. Since $0 < a < n$, the only possible solutions are $a = 1$. Therefore, the function $f_{n,a,b}$ is a retraction if and only if $a = 1$. Each such function is characterized by its constant $b$. It can be checked easily that each function is a retraction. Therefore, for each $n > 1$, $R(n) = n$ because each $b$ from $0$ to $n – 1$ represents a different retraction.

In this case, we are asked to find $F(N) = \sum_{n = 1}^{N}(R(n^4 + 4))$. Since we’ve shown $R(n) = n$ for $n > 1$, $F(N) = \sum_{n = 1}^{N}(n^4 + 4) = \frac{N(N + 1)(2N + 1)(3N^2 + 3N – 1)}{30} + 4N$.

Given $F(1024) = 77532377300600$, we are asked to find $F(10^7)$. Substituting $1024$ and $10^7$ into that formula, the problem is reduced to performing large arithmetic computations and taking the result modulo $1\,000\,000\,007$.

To solve this problem, we need to calculate $F(10^7)$ and compute the result modulo $1\,000\,000\,007$. It leads to a large number, and depending on the limitations of your calculator or computation tool, it may go beyond what can be comfortably handled without specialized mathematical software.

Remember the following rules:

$$(a + b) \mod m = ((a \mod m) + (b \mod m)) \mod m$$
$$(a \times b) \mod m = ((a \mod m) \times (b \mod m)) \mod m$$
$$(a – b) \mod m = ((a \mod m) – (b \mod m)) \mod m$$

This properties allow us to calculate the modulo of a large number without having to explicitly evaluate it.

Hence, this problem would require writing a program (Python, for instance) to calculate $F(N)$ with large numbers and carry out the modulo operation. It requires an understanding of the mathematics behind the problem, knowledge of programming and handling large numbers in programming.

More Answers:
GCD and Tiling
The Inverse Summation of Coprime Couples
Eleven-free Integers

Error 403 The request cannot be completed because you have exceeded your quota. : quotaExceeded

Share:

Recent Posts

Mathematics in Cancer Treatment

How Mathematics is Transforming Cancer Treatment Mathematics plays an increasingly vital role in the fight against cancer mesothelioma. From optimizing drug delivery systems to personalizing

Read More »