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Polynomials & Factoring

Break apart complex expressions into simple pieces — the key skill for solving higher-degree equations.

What Are Polynomials?

A polynomial is an expression consisting of variables and coefficients, combined using addition, subtraction, and non-negative integer exponents. Polynomials are classified by their degree (highest power) and number of terms:

Monomial: 5x³ (one term)
Binomial: x² + 3 (two terms)
Trinomial: 2x² − 5x + 1 (three terms)

Standard form: aₙxⁿ + aₙ₋₁xⁿ⁻¹ + ⋯ + a₁x + a₀
Degree n, leading coefficient aₙ

The behavior of polynomials at large values — their end behavior — depends on the degree and leading coefficient. This becomes crucial when you study limits in calculus.

Polynomial Operations

Addition & Subtraction

Combine like terms (same variable and exponent):

Example

(3x² + 2x − 5) + (x² − 4x + 7) = 4x² − 2x + 2

Multiplication

Distribute each term in the first polynomial across every term in the second (the "FOIL" method is a special case for two binomials):

Example: FOIL

(2x + 3)(x − 4) = 2x² − 8x + 3x − 12 = 2x² − 5x − 12

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Polynomial Long Division

Dividing polynomials works just like long division with numbers. This technique is essential for finding asymptotes of rational functions.

Example: (2x³ + 3x² − x + 5) ÷ (x + 2)

Result: 2x² − x + 1 with remainder 3

So: 2x³ + 3x² − x + 5 = (x + 2)(2x² − x + 1) + 3

Factoring Techniques

Factoring is the reverse of multiplication. It's the single most useful algebraic skill for solving equations.

1. Greatest Common Factor (GCF)

6x³ + 9x² = 3x²(2x + 3)

Always look for GCF first!

2. Difference of Squares

a² − b² = (a + b)(a − b)

Example:

25x² − 49 = (5x + 7)(5x − 7)

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3. Perfect Square Trinomials

a² + 2ab + b² = (a + b)²
a² − 2ab + b² = (a − b)²

4. Trinomial Factoring (ac-method)

For ax² + bx + c, find two numbers that multiply to ac and add to b:

Example: Factor 6x² + 11x + 3

ac = 18. Numbers that multiply to 18 and add to 11: 9 and 2

6x² + 9x + 2x + 3 = 3x(2x + 3) + 1(2x + 3) = (3x + 1)(2x + 3)

5. Sum/Difference of Cubes

a³ + b³ = (a + b)(a² − ab + b²)
a³ − b³ = (a − b)(a² + ab + b²)

6. Factor by Grouping

For polynomials with 4+ terms, group pairs and extract common factors:

Example: Factor x³ + x² + 2x + 2

Group: x²(x + 1) + 2(x + 1) = (x² + 2)(x + 1)

Factoring connects to many areas: the Fundamental Theorem of Arithmetic (unique prime factorization), partial fractions in integration, and characteristic polynomials in linear algebra.

Rational Expressions

A rational expression is a fraction of two polynomials: P(x)/Q(x) where Q(x) ≠ 0. The techniques are identical to fraction arithmetic, but with polynomials. Factor first, then simplify.

Example: Simplify (x² − 9) / (x² + 5x + 6)

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Factor: (x+3)(x−3) / (x+2)(x+3)

Cancel (x+3): (x−3)/(x+2), valid for x ≠ −3, x ≠ −2

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Factor & Remainder Theorems

Remainder Theorem: If polynomial f(x) is divided by (x − c), the remainder is f(c).

Factor Theorem: (x − c) is a factor of f(x) if and only if f(c) = 0.

These theorems let you test potential roots by simple evaluation. Combined with the Rational Root Theorem — which says any rational root p/q must have p dividing the constant term and q dividing the leading coefficient — you can systematically find all rational roots of a polynomial.

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The Factor Theorem is a bridge to the number-theoretic concept of divisibility, and the Rational Root Theorem connects to prime factorization.

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