What is the prime factorization of 33! ?
What is interesting about the exponents of prime factors of perfect squares?
What is the prime factorization of the largest perfect square that divides 33! ?
All of the perfect square divisors of 33! are also divisors of the largest perfect square divisor. Since we are looking for divisors that are perfect squares it will make things easier to rewrite the previous factorization as powers of squared primes: (2^{2})^{x} · (3^{2})^{y} · (5^{2})^{z} · · ·
How many ways can the squared primes be combined? This is the number of perfect square divisors of 33!
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