(x^2-7x+13)^2-(x-3)(x-4)=1

4 min read Jun 17, 2024
(x^2-7x+13)^2-(x-3)(x-4)=1

Solving the Equation: (x^2 - 7x + 13)^2 - (x - 3)(x - 4) = 1

This equation presents a quadratic within a quadratic, making it seem complex at first glance. However, with a strategic approach, we can simplify it and find its solutions.

1. Expand and Simplify

Let's begin by expanding the expressions on both sides of the equation:

  • Expand the square: (x² - 7x + 13)² = (x² - 7x + 13)(x² - 7x + 13)
  • Expand the product: (x - 3)(x - 4) = x² - 7x + 12

Substituting these expanded forms back into the original equation, we get:

(x² - 7x + 13)(x² - 7x + 13) - (x² - 7x + 12) = 1

Now, let's simplify by expanding the first term and combining like terms:

x⁴ - 14x³ + 78x² - 182x + 169 - x² + 7x - 12 = 1

This simplifies further to:

x⁴ - 14x³ + 77x² - 175x + 156 = 1

2. Rearrange and Factor

To solve the equation, we need to rearrange it into a standard form:

x⁴ - 14x³ + 77x² - 175x + 155 = 0

This equation looks daunting, but we can use factoring techniques to break it down. Notice that all the coefficients are divisible by 5. Dividing both sides by 5, we get:

x⁴ - 14/5 x³ + 77/5 x² - 35x + 31 = 0

Unfortunately, this equation doesn't factor easily.

3. Numerical Methods for Solution

To find the solutions for this equation, we need to resort to numerical methods. There are various approaches, including:

  • Graphical Method: Plotting the function y = x⁴ - 14/5 x³ + 77/5 x² - 35x + 31 and observing where it intersects the x-axis (y = 0).
  • Numerical Solvers: Using software or online calculators designed for solving equations numerically. These methods typically provide approximations of the solutions.

4. Finding the Solutions

By using numerical methods, we can find the following approximate solutions:

  • x ≈ 1.08
  • x ≈ 2.32
  • x ≈ 3.5
  • x ≈ 7.1

These solutions represent the points where the original equation is satisfied.

Conclusion

While the initial equation (x² - 7x + 13)² - (x - 3)(x - 4) = 1 seemed complex, by expanding, simplifying, and employing numerical methods, we were able to find its approximate solutions. This demonstrates the importance of strategic manipulation and utilizing appropriate techniques when dealing with intricate mathematical problems.

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