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Ch. 5 - Systems and Matrices
Lial - College Algebra 13th Edition
Lial13th EditionCollege AlgebraISBN: 9780136881063Not the one you use?Change textbook
All textbooksLial 13th EditionCh. 5 - Systems and MatricesProblem 79
Chapter 6, Problem 79

Use a system of equations to solve each problem. Find an equation of the parabola y = ax2 + bx + c that passes through the points (2, 3), (-1, 0), and (-2, 2).

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Start by substituting each given point into the general form of the parabola equation \(y = ax^2 + bx + c\). For the point \((2, 3)\), substitute \(x = 2\) and \(y = 3\) to get the equation \$3 = a(2)^2 + b(2) + c$.
Next, substitute the point \((-1, 0)\) into the equation by setting \(x = -1\) and \(y = 0\), which gives \$0 = a(-1)^2 + b(-1) + c$.
Then, substitute the point \((-2, 2)\) by setting \(x = -2\) and \(y = 2\), resulting in \$2 = a(-2)^2 + b(-2) + c$.
Now, simplify each equation to form a system of three linear equations in terms of \(a\), \(b\), and \(c\). This system will look like: \$4a + 2b + c = 3\(, \)a - b + c = 0\(, and \)4a - 2b + c = 2$.
Solve this system of equations using either substitution, elimination, or matrix methods to find the values of \(a\), \(b\), and \(c\). These values will give you the specific equation of the parabola.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

System of Equations

A system of equations consists of multiple equations with multiple variables that are solved together. In this problem, each point provides an equation when substituted into y = ax^2 + bx + c, creating a system to find a, b, and c.
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Introduction to Systems of Linear Equations

Quadratic Function Form

The quadratic function y = ax^2 + bx + c represents a parabola, where a, b, and c are constants. Understanding this form allows you to set up equations by plugging in x and y values from given points.
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Vertex Form

Substitution of Points into Equations

Substituting each point's coordinates into the quadratic equation generates specific equations. This step translates geometric information into algebraic form, enabling the creation of a solvable system.
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Related Practice
Textbook Question

Find the maximum and minimum values of each objective function over the region of feasible solutions shown at the right. objective function = 3x + 5y

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Textbook Question

The graphs show regions of feasible solutions. Find the maximum and minimum values of each objective function. objective function = 3x + 5y

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Textbook Question

For each pair of matrices A and B, find (a) AB and (b) BA. See Example 7. A=[3421],B=[6052]A = \(\left\)[ \(\begin{matrix}\) 3 & 4 \\ -2 & 1 \(\end{matrix}\) \(\right\)], \(\quad\) B = \(\left\)[ \(\begin{matrix}\) 6 & 0 \\ 5 & -2 \(\end{matrix}\) \(\right\)]

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Textbook Question

Use Cramer's rule to solve each system of equations. If D = 0, then use another method to determine the solution set. See Examples 5–7.

-2x - 2y + 3z = 4

5x + 7y - z = 2

2x + 2y - 3z = -4

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Textbook Question

Perform each operation, if possible.

[321406][200231]\(\left\)[ \(\begin{matrix}\) 3 & 2 & -1 \\ 4 & 0 & 6 \(\end{matrix}\) \(\right\)] \(\left\)[ \(\begin{matrix}\) -2 & 0 \\ 0 & 2 \\ 3 & 1 \(\end{matrix}\) \(\right\)]

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Textbook Question

Consider the following nonlinear system. Work Exercises 75 –80 in order.

y = | x - 1 |

y = x2 - 4

Use the definition of absolute value to write y = | x - 1 | as a piecewise-defined function.

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