Modular arithmetic is a fundamental concept in number theory, often used in computer science and cryptography. In this article, we explore how to find the remainder of 1234565678910 ÷ 13 using modular arithmetic. This process not only reinforces the principles of congruences and exponentiation but also provides a practical example of how these concepts can be applied to solve complex problems.
Introduction to Modular Arithmetic
Modular arithmetic deals with the remainder of division of integers. When an integer a is divided by a positive integer n, the remainder is the smallest non-negative integer r such that a nb r, where b is the quotient. This is represented as a ≡ r (mod n). The number n is referred to as the modulus.
Simplifying the Problem
The given problem is to find the remainder of 1234565678910 ÷ 13. Instead of directly evaluating the large exponentiation, we can use modular arithmetic to simplify the problem.
Step 1: Simplify 12345 Modulo 13
First, we simplify 12345 modulo 13:
12345 ≡ 1300 - 66 ≡ -1 (mod 13)
Step 2: Simplify 56 Modulo 13
Next, we simplify 56 ÷ 13. Using properties of exponents and congruences:
56 ≡ 253 ≡ (-1)3 ≡ -1 (mod 13)
As 25 ≡ 12 (mod 13), and 12 is equivalent to -1 (mod 13).
Step 3: Simplify 5678 Modulo 13
Next, we simplify 5678 modulo 13 using the fact that 5678 ≡ -3 (mod 13) since 5678 - 13 * 437 -3.
Step 4: Simplify 910 Modulo 13
Finally, we simplify 910 modulo 13. Using properties of exponents and congruences:
910 ≡ 815 ≡ 33 * 9 ≡ 27 * 9 ≡ 1 * 9 ≡ -4 (mod 13)
This simplification is based on the fact that 81 ≡ 3 (mod 13) and 27 ≡ 1 (mod 13).
Solving the Original Problem
Now, let's combine these simplified results to solve the original problem:
1234565678910 ≡ (-1)1 - 1 - 3 - 4 ≡ 14 ≡ 1 (mod 13)
Therefore, the remainder when dividing 1234565678910 by 13 is 1.
Conclusion
In conclusion, finding the remainder using modular arithmetic involves breaking down the problem into simpler congruences, simplifying each part, and then combining the results. This method is not only useful in theoretical mathematics but also in practical applications such as cryptography and computer algorithms.
Related Keywords
modular arithmetic remainder google seoReferences
For further reading, refer to the following sources:
Modular Arithmetic Wikipedia Modular Exponentiation in Cryptography