Show that 12^{n} cannot end with the digit 0 | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(N/A) If any number ends with the digit $0$ or $5$,it is always divisible by $5$.If $12^{n}$ ends with the digit $0$ or $5$,it must be divisible by $5

Vedclass · Accepted Answer

Vedclass · Answer

(N/A) If any number ends with the digit $0$ or $5$,it is always divisible by $5$.
If $12^{n}$ ends with the digit $0$ or $5$,it must be divisible by $5$.
This is possible only if the prime factorization of $12^{n}$ contains the prime number $5$.
Now,the prime factorization of $12$ is $12 = 2^{2} \times 3$.
Therefore,$12^{n} = (2^{2} \times 3)^{n} = 2^{2n} \times 3^{n}$.
By the Fundamental Theorem of Arithmetic,the prime factorization of $12^{n}$ is unique and contains only the prime factors $2$ and $3$.
Since $5$ is not a prime factor of $12^{n}$,$12^{n}$ cannot be divisible by $5$ for any natural number $n$.
Hence,$12^{n}$ cannot end with the digit $0$ or $5$ for any natural number $n$.

Show that $12^{n}$ cannot end with the digit $0$ or $5$ for any natural number $n$.

Similar Questions

Write whether every positive integer can be of the form $4q + 2$,where $q$ is an integer. Justify your answer.

State whether the following rational number has a terminating decimal expansion or not. If it has a terminating decimal expansion,find it: $\frac{13}{3125}$

$LCM(15, 21, 35) = .........$

Prove that $\sqrt[3]{6}$ is an irrational number.

Show that the square of any positive integer is either of the form $4q$ or $4q+1$ for some integer $q$.

Vedclass Test Series

Exam Paper Generator

Online Exam Module