(x-7)(x-3)(x+1)(x+5)=1680

3 min read Jun 17, 2024
(x-7)(x-3)(x+1)(x+5)=1680

Solving the Equation (x-7)(x-3)(x+1)(x+5) = 1680

This article will guide you through solving the equation (x-7)(x-3)(x+1)(x+5) = 1680. We'll explore the steps involved in finding the solutions for 'x'.

1. Expand and Simplify the Equation

First, we need to expand the left side of the equation by multiplying the factors:

(x-7)(x-3)(x+1)(x+5) = 1680

  • Start by multiplying the first two factors: (x² - 10x + 21)(x+1)(x+5) = 1680
  • Then, multiply the result by the next factor: (x³ - 9x² + 11x + 21)(x+5) = 1680
  • Finally, multiply the last two factors: x⁴ - 4x³ - 34x² + 106x + 105 = 1680

Now, we have a polynomial equation:

x⁴ - 4x³ - 34x² + 106x - 1575 = 0

2. Finding Solutions

This is a fourth-degree polynomial equation, and finding its solutions can be tricky. Here are a few approaches:

  • Factoring: Try to factor the polynomial equation. In this case, it might be challenging to factor directly.
  • Rational Root Theorem: This theorem can help identify potential rational roots. However, applying it to a fourth-degree equation can still be complex.
  • Numerical Methods: Numerical methods like the Newton-Raphson method or graphing calculators can approximate the solutions.
  • Software: Specialized software designed for solving polynomial equations can provide precise solutions.

3. Utilizing Numerical Methods (Approximation)

Let's use a numerical method to find approximate solutions. We can use a graphing calculator or online tools to find the roots:

  • Plot the function y = x⁴ - 4x³ - 34x² + 106x - 1575.
  • Identify the x-intercepts, which correspond to the solutions of the equation.

By using a graphing calculator or numerical methods, we find the approximate solutions for 'x' to be:

  • x ≈ -5.00
  • x ≈ -1.00
  • x ≈ 3.00
  • x ≈ 7.00

Conclusion

Solving the equation (x-7)(x-3)(x+1)(x+5) = 1680 involves expanding the equation, simplifying it into a polynomial form, and then using methods like factoring, numerical methods, or specialized software to find the solutions for 'x'. In this case, the approximate solutions are x ≈ -5.00, x ≈ -1.00, x ≈ 3.00, and x ≈ 7.00.

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