(x%2B5)(x%2B3).jpeg "(x-1)(x+5)(x+3)")
Exploring the Cubic Polynomial: (x-1)(x+5)(x+3)
This article delves into the fascinating world of the cubic polynomial represented by the expression (x-1)(x+5)(x+3). We will examine its key features, explore its graphical representation, and discuss its real-world applications.
Understanding the Factorized Form
The given expression is already in its factored form, which is incredibly useful for understanding the polynomial's behavior. Each factor corresponds to a root (or x-intercept) of the function.
- (x-1): This factor indicates that the polynomial has a root at x = 1.
- (x+5): This factor indicates a root at x = -5.
- (x+3): This factor indicates a root at x = -3.
Expanding the Expression
While the factored form is insightful, expanding the expression provides a different perspective. Let's multiply the factors:
(x-1)(x+5)(x+3) = (x² + 4x - 5)(x+3)
Further expanding, we get:
(x² + 4x - 5)(x+3) = x³ + 7x² + 7x - 15
This expanded form helps us identify the coefficients of the polynomial and its degree (which is 3, indicating a cubic function).
Graphing the Function
The graph of the cubic function y = x³ + 7x² + 7x - 15 exhibits several key characteristics:
- Intercepts: The function intersects the x-axis at the points (1, 0), (-5, 0), and (-3, 0), as predicted by the factored form. It also intersects the y-axis at (0, -15).
- Turning Points: A cubic function typically has two turning points. In this case, we can observe a local maximum and a local minimum.
- End Behavior: As x approaches positive infinity, y also approaches positive infinity. Conversely, as x approaches negative infinity, y approaches negative infinity.
Real-World Applications
Cubic polynomials find applications in various fields:
- Physics: They can model projectile motion and the behavior of waves.
- Engineering: Cubic functions are used in designing structures, analyzing fluid flow, and optimizing processes.
- Economics: They can model the growth of economies and the demand for certain goods.
Conclusion
The cubic polynomial (x-1)(x+5)(x+3) offers a fascinating insight into the world of polynomial functions. Its factored form reveals its roots, while its expanded form provides a deeper understanding of its coefficients and degree. Its graph exhibits characteristic features, and its applications are diverse, making it a significant tool in various disciplines.