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Example Questions
Example Question #101 : Algebraic Functions
If x2 + 2x - 1 = 7, which answers for x are correct?
x = -3, x = 4
x = -5, x = 1
x = -4, x = 2
x = 8, x = 0
x = -4, x = -2
x = -4, x = 2
x2 + 2x - 1 = 7
x2 + 2x - 8 = 0
(x + 4) (x - 2) = 0
x = -4, x = 2
Example Question #2 : How To Use The Quadratic Function
Which of the following quadratic equations has a vertex located at ?
The vertex form of a parabola is given by the equation:
, where the point is the vertex, and is a constant.
We are told that the vertex must occur at , so let's plug this information into the vertex form of the equation. will be 3, and will be 4.
Let's now expand by using the FOIL method, which requires us to multiply the first, inner, outer, and last terms together before adding them all together.
We can replace with .
Next, distribute the .
Notice that in all of our answer choices, the first term is . If we let , then we would have in our equation. Let's see what happens when we substitute for .
Example Question #1 : How To Use The Quadratic Function
If , which two values of are correct?
First, we set the quadratic function equal to :
Reduce the function to its two component factors:
Therefore, since either or ,
Example Question #2 : How To Use The Quadratic Function
If , which pair of values for are correct?
First, set the quadratic function equal to :
Then, reduce the function to its two factors:
Since one of the factors on the left hand side of the equation must equal in order for the above equation to be true,
or
Solving for both, we get .
Example Question #2 : How To Use The Quadratic Function
If , which two values of are correct?
First, set the quadratic function equal to :
Then, separate the function into its two component factors:
It follows from this equation that either or ,
Example Question #1 : How To Use The Quadratic Function
The length of a rectangular piece of land is two feet more than three times its width. If the area of the land is , what is the width of that piece of land?
The area of a rectangle is the product of its length by its width, which we know to be equal to in our problem. We also know that the length is equal to , where represents the width of the land. Therefore, we can write the following equation:
Distributing the outside the parentheses, we get:
Subtracting from each side of the equation, we get:
We get a quadratic equation, and since there is no factor of and that adds up to , we use the quadratic formula to solve this equation.
We can first calculate the discriminant (i.e. the part under the square root)
We replace that value in the quadratic formula, solving both the positive version of the formula (on the left) and the negative version of the formula (on the right):
Breaking down the square root:
We can pull two of the twos out of the square root and place a outside of it:
We can then multiply the and the :
At this point, we can reduce the equations, since each of the component parts of their right sides has a factor of :
Since width is a positive value, the answer is:
The width of the piece of land is approximately .
Example Question #292 : New Sat
What is the focus of the above quadratic equation?
The focus is solved by using the following formula , where are the coordinates of the vertex, and is the distance from the vertex. To solve for , we use
, where is the coefficient in front of the term and is the focus.
Since , we can substitute in to get,
Now we need to find the vertex of the equation.
Since our equation is in vertex form, we can deduce that the vertex is at
So the focus is at
Example Question #1 : How To Use The Quadratic Function
Find all the solutions of where crosses the line .
No Real Solutions
In order to find all the solutions, we need to set the equations equal to each other.
Now subtract and from each side.
Factor the left hand side to get
Factor the quadratic function inside the parenthesis to get
The solutions to this equation are
Example Question #2 : How To Use The Quadratic Function
How many x-intercepts does the following equation have?
To figure out how many x-intercepts there are, we need to set out equation equal to zero.
Factor an x out
Factor inside of the parenthesis.
We can see there are 3 x-intercepts at .
Example Question #7 : How To Use The Quadratic Function
To use a computer at a computer lab, Tonya must pay $0.50 per hour. She spends hours at the computer lab, and pays a total amount of , where . If this equation is graphed, what does the y-intercept represent?
The total amount that Tonya paid.
The number of hours Tonya spent at the computer lab.
The initial cost of using a computer.
The amount per hour that it costs to use a computer.
The amount per day that it costs to use a computer.
The initial cost of using a computer.
If the equation
were graphed, the result would be a line with a slope of 0.5 and a y-intercept of 1.2. 0.5 represents the amount Tonya pays per hour to work at a computer, because we know that the rate is $0.50, and C represents the total amount she pays. Because we must add 1.2 (or $1.20) to the total amount of hours multiplied by the hourly rate in order to get the total amount Tonya paid, we can assume there is another charge for renting a computer, in addition to the hourly rate, and that that charge is $1.20. Therefore, the y-intercept of the graph of the equation represents the initial cost of using a computer.
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