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A 'difference of squares' is a specific type of polynomial. It is expressed as the subtraction of two perfect squares. This form looks like:
a^{2} - b^{2}. For example, in the given exercise, 64m^{2} - 49p^{2}, we see two perfect squares subtracted.
To factor this, we use the difference of squares formula:
.The formula states that a² - b² can be factored into (a - b)(a + b).

By identifying 'a' and 'b' in our polynomial,
we see that a = 8m and b = 7p. Therefore, we apply the formula:

(8m)² - (7p)² = (8m - 7p)(8m + 7p). In the last step, we verify our answer by expanding, confirming we return to the original polynomial:

64m² - 49p². This confirms our factoring is correct.

A 'prime polynomial' is like a prime number in arithmetic. It cannot be factored into simpler polynomials with integer coefficients.

After factoring 64m² - 49p² as (8m - 7p)(8m + 7p), we check each factor. In this case,
(8m - 7p) and (8m + 7p) cannot be factored further. This is because no common factor other than 1 exists.

Therefore, each factor is prime.
Identifying prime polynomials is essential, for it helps in simplifying expressions to their irreducible forms.
Remember, not all polynomials are prime. Always check if further factoring is possible.

A 'perfect square' is the square of an integer. Perfect squares are crucial for identifying patterns in polynomials. In the exercise provided, both terms in 64m² - 49p² are perfect squares.

For instance, 64m² is the square of 8m, and 49p² is the square of 7p. Recognition of perfect squares allows us to use specific factoring techniques, such as the difference of squares formula.

This insight simplifies factoring considerably. Perfect squares are also essential in solving quadratic equations and across various mathematical applications.