(4n+1)(2n+6)

2 min read Jun 16, 2024
(4n+1)(2n+6)

Exploring the Expression (4n+1)(2n+6)

The expression (4n+1)(2n+6) represents a product of two linear expressions. Let's dive into its properties, simplification, and potential applications.

Understanding the Expression

  • Linear expressions: Both (4n+1) and (2n+6) are linear expressions because their highest power of the variable 'n' is 1.
  • Product: The expression signifies the product of these two linear expressions.

Expanding the Expression

We can expand the expression using the distributive property (FOIL method):

(4n+1)(2n+6) = (4n * 2n) + (4n * 6) + (1 * 2n) + (1 * 6) = 8n² + 24n + 2n + 6 = 8n² + 26n + 6

Simplifying the Expression

The expanded form can be further simplified by combining like terms. This leads to the simplified expression: 8n² + 26n + 6

Applications

This expression can be used in various contexts, including:

  • Algebraic manipulations: The expression can be used in solving equations, simplifying complex expressions, and proving algebraic identities.
  • Quadratic equations: The simplified expression is a quadratic equation, which can be used to model real-world situations involving parabolic curves, like the trajectory of a projectile.
  • Polynomial functions: The expression can represent a polynomial function, which can be graphed and analyzed to understand its behavior.

Conclusion

The expression (4n+1)(2n+6) represents a product of two linear expressions that can be expanded and simplified into a quadratic expression. This expression has various applications in algebraic manipulations, quadratic equations, and polynomial functions. Understanding its properties and simplifications can be useful in solving mathematical problems and interpreting real-world scenarios.

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