Prove that 5^{n} times 6^{n} ends in zero for | vedclass

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(N/A) To determine if $5^{n} 	imes 6^{n}$ ends in zero,we must check if it is divisible by $10$. $A$ number is divisible by $10$ if its prime factori

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(N/A) To determine if $5^{n} 	imes 6^{n}$ ends in zero,we must check if it is divisible by $10$. $A$ number is divisible by $10$ if its prime factorization contains at least one pair of $2$ and $5$.Given expression: $5^{n} 	imes 6^{n}$.We can factorize $6^{n}$ as $(2 	imes 3)^{n} = 2^{n} 	imes 3^{n}$.Substituting this into the expression: $5^{n} 	imes 2^{n} 	imes 3^{n} = (2 	imes 5)^{n} 	imes 3^{n} = 10^{n} 	imes 3^{n}$.Since the expression can be written as $10^{n} 	imes 3^{n}$,it is clearly divisible by $10$ for all $n \in N$.Therefore,$5^{n} 	imes 6^{n}$ always ends in zero for any natural number $n$.

Prove that $5^{n} \times 6^{n}$ ends in zero for any natural number $n \in N$.

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