(x+5)(x-4)(x+2)

3 min read Jun 17, 2024
(x+5)(x-4)(x+2)

Exploring the Polynomial: (x+5)(x-4)(x+2)

This article delves into the polynomial expression (x+5)(x-4)(x+2), exploring its key properties, expansion, and potential applications.

Understanding the Structure

The expression represents the product of three linear binomials: (x+5), (x-4), and (x+2). This form is particularly useful for:

  • Finding the roots: The roots of the polynomial are the values of x that make the expression equal to zero. Since the expression is a product of three factors, it equals zero when any one of the factors equals zero. Therefore, the roots are x = -5, x = 4, and x = -2.
  • Identifying the degree: The degree of a polynomial is determined by the highest power of the variable. Since each binomial is linear (highest power of x is 1), the product will be a third-degree polynomial.

Expanding the Expression

To gain a better understanding of the polynomial's behavior, we can expand the expression:

  1. Multiply the first two binomials: (x+5)(x-4) = x² + x - 20

  2. Multiply the result by the third binomial: (x² + x - 20)(x+2) = x³ + 3x² - 16x - 40

Therefore, the expanded form of the polynomial is x³ + 3x² - 16x - 40.

Applications

The polynomial (x+5)(x-4)(x+2) can be used in various mathematical contexts, including:

  • Modeling real-world phenomena: Polynomials can model various physical phenomena, such as projectile motion, population growth, and the behavior of certain systems.
  • Solving equations: Finding the roots of the polynomial allows us to solve equations where the polynomial is set equal to zero.
  • Graphing functions: The expanded form of the polynomial helps in understanding the shape and behavior of the function it represents.

Conclusion

Understanding the structure and expansion of the polynomial (x+5)(x-4)(x+2) provides valuable insights into its properties and potential applications. Its factored form reveals its roots, while the expanded form offers a clearer view of its degree and overall behavior.