What must be true about the integer n in relation to the divisibility by 2500 for n^3?

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Multiple Choice

What must be true about the integer n in relation to the divisibility by 2500 for n^3?

To determine the conditions under which ( n^3 ) is divisible by 2500, it is essential to analyze the prime factorization of 2500. The prime factorization of 2500 is ( 2^2 \times 5^4 ). For ( n^3 ) to be divisible by 2500, it must contain at least these prime factors with the required powers.

Since ( n^3 ) expresses the prime factors of ( n ), we can identify how the prime factorization of ( n ) must be structured. Specifically, if ( n ) is expressed in its prime factorization as ( n = 2^a \times 5^b \times \text{(other primes)} ), then:

( n^3 = 2^{3a} \times 5^{3b} \times \text{(other primes)}^3 )

To ensure ( n^3 ) is divisible by ( 2^2 ), it necessitates that ( 3a \geq 2 ). This gives ( a \geq \frac{2}{3} ). Since ( a ) must be an integer,

What must be true about the integer n in relation to the divisibility by 2500 for n^3?

Study for the Electronic GMAT Test. Enhance your skills with interactive quizzes and detailed explanations. Gear up for your exam success with our comprehensive question bank.

What must be true about the integer n in relation to the divisibility by 2500 for n^3?

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