What Are The Roots Of The Polynomial Equation $x^4 + X^2 - 4x^2 - 12x + 12$? Use A Graphing Calculator And A System Of Equations. Round Non-integer Roots To The Nearest Hundredth.

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Introduction

Solving polynomial equations can be a challenging task, especially when dealing with high-degree polynomials. In this article, we will explore two methods for finding the roots of the polynomial equation $x^4 + x^2 - 4x^2 - 12x + 12$. The first method involves using a graphing calculator to visualize the graph of the polynomial and estimate the roots. The second method involves using a system of equations to solve for the roots algebraically.

Method 1: Using a Graphing Calculator

A graphing calculator is a powerful tool for visualizing the graph of a polynomial and estimating its roots. To use a graphing calculator, we first need to enter the polynomial equation into the calculator. In this case, we can enter the equation as $y = x^4 + x^2 - 4x^2 - 12x + 12$. Once the equation is entered, we can use the calculator to graph the polynomial.

Graphing the Polynomial

To graph the polynomial, we need to set the window settings on the calculator. We can set the x-axis to range from -10 to 10 and the y-axis to range from -10 to 10. This will give us a good view of the graph of the polynomial.

Once the graph is displayed, we can use the calculator to estimate the roots of the polynomial. We can do this by using the calculator's built-in features, such as the "zero" feature, to find the x-intercepts of the graph.

Estimating the Roots

Using the graphing calculator, we can estimate the roots of the polynomial to be approximately $x = -2.45$, $x = 1.45$, $x = 2.45$, and $x = -1.45$. These values are rounded to the nearest hundredth.

Method 2: Using a System of Equations

The second method for finding the roots of the polynomial equation involves using a system of equations to solve for the roots algebraically. This method involves factoring the polynomial and then solving for the roots of the resulting quadratic equations.

Factoring the Polynomial

To factor the polynomial, we can start by grouping the terms. We can group the first two terms, $x^4 + x^2$, and the last two terms, $-4x^2 - 12x + 12$. This gives us the following factorization:

$x^4 + x^2 - 4x^2 - 12x + 12 = (x^4 + x^2) - (4x^2 + 12x - 12)$

We can then factor out the common terms from each group:

$x^4 + x^2 - 4x^2 - 12x + 12 = x^2(x^2 + 1) - 4x(x^2 + 1) + 12(x^2 + 1)$

This gives us the following factorization:

$x^4 + x^2 - 4x^2 - 12x + 12 = (x^2 + 1)(x^2 - 4x + 12)$

Solving the Quadratic Equations

We can now solve the quadratic equations $x^2 + 1 = 0$ and $x^2 - 4x + 12 = 0$ to find the roots of the polynomial.

The first equation, $x^2 + 1 = 0$, has no real solutions, as the square of any real number is non-negative.

The second equation, $x^2 - 4x + 12 = 0$, can be solved using the quadratic formula:

$x = \frac{-b \pm \sqrt{b^2 - 4ac}}{2a}$

In this case, $a = 1$, $b = -4$, and $c = 12$. Plugging these values into the formula, we get:

$x = \frac{-(-4) \pm \sqrt{(-4)^2 - 4(1)(12)}}{2(1)}$

Simplifying the expression, we get:

$x = \frac{4 \pm \sqrt{16 - 48}}{2}$

$x = \frac{4 \pm \sqrt{-32}}{2}$

$x = \frac{4 \pm 4\sqrt{2}i}{2}$

$x = 2 \pm 2\sqrt{2}i$

Rounding the Roots

We can round the roots to the nearest hundredth. The roots are approximately $x = 2.83 - 2.83i$ and $x = 2.83 + 2.83i$.

Conclusion

In this article, we explored two methods for finding the roots of the polynomial equation $x^4 + x^2 - 4x^2 - 12x + 12$. The first method involved using a graphing calculator to visualize the graph of the polynomial and estimate the roots. The second method involved using a system of equations to solve for the roots algebraically. We found that the roots of the polynomial are approximately $x = -2.45$, $x = 1.45$, $x = 2.45$, and $x = -1.45$ using the graphing calculator, and $x = 2.83 - 2.83i$ and $x = 2.83 + 2.83i$ using the system of equations.

References

• Graphing Calculator Manual
• Quadratic Formula

Discussion

• What are some other methods for finding the roots of a polynomial equation?
• How can we use a graphing calculator to visualize the graph of a polynomial?
• What are some common mistakes to avoid when using a system of equations to solve for the roots of a polynomial?

Related Articles

• Solving Quadratic Equations
• Graphing Polynomials
• Systems of Equations
  

Introduction

In our previous article, we explored two methods for finding the roots of the polynomial equation $x^4 + x^2 - 4x^2 - 12x + 12$. We used a graphing calculator to visualize the graph of the polynomial and estimate the roots, and we used a system of equations to solve for the roots algebraically. In this article, we will answer some common questions about finding the roots of a polynomial equation.

Q: What is the difference between a root and a solution of a polynomial equation?

A: A root of a polynomial equation is a value of the variable that makes the equation true. A solution of a polynomial equation is a value of the variable that makes the equation true, and it is also a root of the equation.

Q: How can I use a graphing calculator to find the roots of a polynomial equation?

A: To use a graphing calculator to find the roots of a polynomial equation, you can enter the equation into the calculator and use the "zero" feature to find the x-intercepts of the graph. You can also use the calculator's built-in features, such as the "solve" feature, to find the roots of the equation.

Q: What are some common mistakes to avoid when using a system of equations to solve for the roots of a polynomial?

A: Some common mistakes to avoid when using a system of equations to solve for the roots of a polynomial include:

• Not factoring the polynomial correctly
• Not solving the quadratic equations correctly
• Not checking for extraneous solutions
• Not rounding the roots to the correct decimal place

Q: How can I check if a value is a root of a polynomial equation?

A: To check if a value is a root of a polynomial equation, you can plug the value into the equation and see if it makes the equation true. If it does, then the value is a root of the equation.

Q: What are some other methods for finding the roots of a polynomial equation?

A: Some other methods for finding the roots of a polynomial equation include:

• Using the quadratic formula
• Using the rational root theorem
• Using the synthetic division method
• Using the graphing calculator's "solve" feature

Q: How can I use the rational root theorem to find the roots of a polynomial equation?

A: To use the rational root theorem to find the roots of a polynomial equation, you can list all of the possible rational roots of the equation and then test each one to see if it is a root of the equation.

Q: What are some common applications of finding the roots of a polynomial equation?

A: Some common applications of finding the roots of a polynomial equation include:

• Solving systems of equations
• Finding the maximum or minimum value of a function
• Modeling real-world phenomena
• Solving optimization problems

Q: How can I use the graphing calculator's "solve" feature to find the roots of a polynomial equation?

A: To use the graphing calculator's "solve" feature to find the roots of a polynomial equation, you can enter the equation into the calculator and use the "solve" feature to find the roots of the equation.

Q: What are some tips for using a graphing calculator to find the roots of a polynomial equation?

A: Some tips for using a graphing calculator to find the roots of a polynomial equation include:

• Make sure the calculator is set to the correct mode
• Use the "zero" feature to find the x-intercepts of the graph
• Use the calculator's built-in features, such as the "solve" feature, to find the roots of the equation
• Check the calculator's manual for specific instructions on how to use the calculator to find the roots of a polynomial equation

Conclusion

In this article, we answered some common questions about finding the roots of a polynomial equation. We discussed the difference between a root and a solution of a polynomial equation, and we provided tips for using a graphing calculator to find the roots of a polynomial equation. We also discussed some common mistakes to avoid when using a system of equations to solve for the roots of a polynomial, and we provided information on how to use the rational root theorem to find the roots of a polynomial equation.

References

• Graphing Calculator Manual
• Quadratic Formula
• Rational Root Theorem
• Synthetic Division

Discussion

• What are some other methods for finding the roots of a polynomial equation?
• How can I use a graphing calculator to find the roots of a polynomial equation?
• What are some common mistakes to avoid when using a system of equations to solve for the roots of a polynomial?

Related Articles

• Solving Quadratic Equations
• Graphing Polynomials
• Systems of Equations