Quadratic Equations - ACT Math
Card 0 of 20
Find the roots of the equation 
.
Find the roots of the equation
To factor this, we need to find a pair of numbers that multiplies to 6 and sums to 5. The numbers 2 and 3 work. (2 * 3 = 6 and 2 + 3 = 5)
(x + 2)(x + 3) = 0
x = –2 or x = –3
To factor this, we need to find a pair of numbers that multiplies to 6 and sums to 5. The numbers 2 and 3 work. (2 * 3 = 6 and 2 + 3 = 5)
(x + 2)(x + 3) = 0
x = –2 or x = –3
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If x2 + x – 6 = 0, what does x equal?
If x2 + x – 6 = 0, what does x equal?
There are two ways to solve this problem. One option is to use the quadratic formula:
In this problem, a = 1, b = 1, and c = –6. However, there is a lot of room for computational error using this method.
Another option is to factor the equation using the reverse FOIL method. Because we have x2, we know that both factors must include x. Thus, so far we have (x )(x ). We also know that one factor must be negative and one must be positive if our last value (the L in FOIL) is to be negative. Thus, we have (x– ) (x+ ). The factors of 6 are 1, 2, 3, and 6, so our last values must multiply together to make 6. Therefore, our options are (x – 1)(x + 6), (x – 6)(x + 1), (x – 2)(x + 3), and (x – 3)(x + 2). However, because we need our middle value to be 1, the combination of the outer and inner values (O and I in FOIL), must add up to positive 1. Since only a combination of +/–2 and +/–3 can add to 1, we can eliminate our first two options. Then, because we need the positive value to be larger than the negative value, we can determine that the correct factorization is (x – 2)(x + 3). When we set each of these pieces equal to zero, we get x – 2 = 0 and x + 3 = 0. Thus, X equals 2 and –3. We can check our work using FOIL.
There are two ways to solve this problem. One option is to use the quadratic formula:
In this problem, a = 1, b = 1, and c = –6. However, there is a lot of room for computational error using this method.
Another option is to factor the equation using the reverse FOIL method. Because we have x2, we know that both factors must include x. Thus, so far we have (x )(x ). We also know that one factor must be negative and one must be positive if our last value (the L in FOIL) is to be negative. Thus, we have (x– ) (x+ ). The factors of 6 are 1, 2, 3, and 6, so our last values must multiply together to make 6. Therefore, our options are (x – 1)(x + 6), (x – 6)(x + 1), (x – 2)(x + 3), and (x – 3)(x + 2). However, because we need our middle value to be 1, the combination of the outer and inner values (O and I in FOIL), must add up to positive 1. Since only a combination of +/–2 and +/–3 can add to 1, we can eliminate our first two options. Then, because we need the positive value to be larger than the negative value, we can determine that the correct factorization is (x – 2)(x + 3). When we set each of these pieces equal to zero, we get x – 2 = 0 and x + 3 = 0. Thus, X equals 2 and –3. We can check our work using FOIL.
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Solve: x2+6x+9=0
Solve: x2+6x+9=0
Given a quadratic equation equal to zero you can factor the equation and set each factor equal to zero. To factor you have to find two numbers that multiply to make 9 and add to make 6. The number is 3. So the factored form of the problem is (x+3)(x+3)=0. This statement is true only when x+3=0. Solving for x gives x=-3. Since this problem is multiple choice, you could also plug the given answers into the equation to see which one works.
Given a quadratic equation equal to zero you can factor the equation and set each factor equal to zero. To factor you have to find two numbers that multiply to make 9 and add to make 6. The number is 3. So the factored form of the problem is (x+3)(x+3)=0. This statement is true only when x+3=0. Solving for x gives x=-3. Since this problem is multiple choice, you could also plug the given answers into the equation to see which one works.
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36x2 -12x - 15 = 0
Solve for x
36x2 -12x - 15 = 0
Solve for x
36x2 - 12x - 15 = 0
Factor the equation:
(6x + 3)(6x - 5) = 0
Set each side equal to zero
6x + 3 = 0
x = -3/6 = -1/2
6x – 5 = 0
x = 5/6
36x2 - 12x - 15 = 0
Factor the equation:
(6x + 3)(6x - 5) = 0
Set each side equal to zero
6x + 3 = 0
x = -3/6 = -1/2
6x – 5 = 0
x = 5/6
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64x2 + 24x - 10 = 0
Solve for x
64x2 + 24x - 10 = 0
Solve for x
64x2 + 24x - 10 = 0
Factor the equation:
(8x + 5)(8x – 2) = 0
Set each side equal to zero
(8x + 5) = 0
x = -5/8
(8x – 2) = 0
x = 2/8 = 1/4
64x2 + 24x - 10 = 0
Factor the equation:
(8x + 5)(8x – 2) = 0
Set each side equal to zero
(8x + 5) = 0
x = -5/8
(8x – 2) = 0
x = 2/8 = 1/4
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x_2 + 3_x + 2 = 0
What are the values of x that are solutions to the equation?
x_2 + 3_x + 2 = 0
What are the values of x that are solutions to the equation?
You factor the equation and get:
(x + 2)(x + 1) = 0
Then, you get x = –2 and x = –1.
You factor the equation and get:
(x + 2)(x + 1) = 0
Then, you get x = –2 and x = –1.
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Which of the following is a root of the function 
?
Which of the following is a root of the function
The roots of a function are the x intercepts of the function. Whenever a function passes through a point on the x-axis, the value of the function is zero. In other words, to find the roots of a function, we must set the function equal to zero and solve for the possible values of x.
This is a quadratic trinomial. Let's see if we can factor it. (We could use the quadratic formula, but it's easier to factor when we can.)
Because the coefficient in front of the 
is not equal to 1, we need to multiply this coefficient by the constant, which is –4. When we mutiply 2 and –4, we get –8. We must now think of two numbers that will multiply to give us –8, but will add to give us –7 (the coefficient in front of the x term). Those two numbers which multiply to give –8 and add to give –7 are –8 and 1. We will now rewrite –7x as –8x + x.
We will then group the first two terms and the last two terms.
We will next factor out a 2_x_ from the first two terms.
Thus, when factored, the original equation becomes (2_x_ + 1)(x – 4) = 0.
We now set each factor equal to zero and solve for x.
Subtract 1 from both sides.
2_x_ = –1
Divide both sides by 2.
Now, we set x – 4 equal to 0.
x – 4 = 0
Add 4 to both sides.
x = 4
The roots of f(x) occur where x = 
.
The answer is therefore 
.
The roots of a function are the x intercepts of the function. Whenever a function passes through a point on the x-axis, the value of the function is zero. In other words, to find the roots of a function, we must set the function equal to zero and solve for the possible values of x.
This is a quadratic trinomial. Let's see if we can factor it. (We could use the quadratic formula, but it's easier to factor when we can.)
Because the coefficient in front of the
We will then group the first two terms and the last two terms.
We will next factor out a 2_x_ from the first two terms.
Thus, when factored, the original equation becomes (2_x_ + 1)(x – 4) = 0.
We now set each factor equal to zero and solve for x.
Subtract 1 from both sides.
2_x_ = –1
Divide both sides by 2.
Now, we set x – 4 equal to 0.
x – 4 = 0
Add 4 to both sides.
x = 4
The roots of f(x) occur where x =
The answer is therefore
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Which of the following values of 
are solutions to 
?
Which of the following values of
1. Factor the above equation:
2. Solve for 
:
and...
1. Factor the above equation:
2. Solve for
and...
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In the equation 
what are the values of 
?
In the equation 
To solve, begin by factoring the equation. We know that in our two factors, one will begin with 
and one will begin with 
. Fiddling with different factors of 
(we are looking for two numbers that, when multiplied by 
and 
separately, will add to 
), we come to the following:
(If you are unsure, double check by expanding the equation to match the original)
Now, set the each factor equal to 0:
Do the same for the second factor:
Therefore, our two values of 
are 
and 
.
Alternatively, this problem can be solved by plugging each answer choice into the original equation and finding which set of numbers make the equation equate to 0.
To solve, begin by factoring the equation. We know that in our two factors, one will begin with
(If you are unsure, double check by expanding the equation to match the original)
Now, set the each factor equal to 0:
Do the same for the second factor:
Therefore, our two values of
Alternatively, this problem can be solved by plugging each answer choice into the original equation and finding which set of numbers make the equation equate to 0.
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What is the sum of all the values of 
that satisfy:
What is the sum of all the values of
With quadratic equations, always begin by getting it into standard form:
Therefore, take our equation:
And rewrite it as:
You could use the quadratic formula to solve this problem. However, it is possible to factor this if you are careful. Factored, the equation can be rewritten as:
Now, either one of the groups on the left could be 
and the whole equation would be 
. Therefore, you set up each as a separate equation and solve for 
:
OR
The sum of these values is:
With quadratic equations, always begin by getting it into standard form:
Therefore, take our equation:
And rewrite it as:
You could use the quadratic formula to solve this problem. However, it is possible to factor this if you are careful. Factored, the equation can be rewritten as:
Now, either one of the groups on the left could be
OR
The sum of these values is:
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What are the two solutions to the following quadratic equation?
What are the two solutions to the following quadratic equation?
The equation can be factored.
First pull out a common factor of three from each term.
.
Now, find the factors of the constant term that when added together result in the middle term.
The roots are what values will make the equation equal 
.
Therefore, the answers are 
and 
The equation can be factored.
First pull out a common factor of three from each term.
Now, find the factors of the constant term that when added together result in the middle term.
The roots are what values will make the equation equal
Therefore, the answers are
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Solve for x: 2(x + 1)2 – 5 = 27
Solve for x: 2(x + 1)2 – 5 = 27
Quadratic equations generally have two answers. We add 5 to both sides and then divide by 2 to get the quadratic expression on one side of the equation: (x + 1)2 = 16. By taking the square root of both sides we get x + 1 = –4 or x + 1 = 4. Then we subtract 1 from both sides to get x = –5 or x = 3.
Quadratic equations generally have two answers. We add 5 to both sides and then divide by 2 to get the quadratic expression on one side of the equation: (x + 1)2 = 16. By taking the square root of both sides we get x + 1 = –4 or x + 1 = 4. Then we subtract 1 from both sides to get x = –5 or x = 3.
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Solve 3x2 + 10x = –3
Solve 3x2 + 10x = –3
Generally, quadratic equations have two answers.
First, the equations must be put in standard form: 3x2 + 10x + 3 = 0
Second, try to factor the quadratic; however, if that is not possible use the quadratic formula.
Third, check the answer by plugging the answers back into the original equation.
Generally, quadratic equations have two answers.
First, the equations must be put in standard form: 3x2 + 10x + 3 = 0
Second, try to factor the quadratic; however, if that is not possible use the quadratic formula.
Third, check the answer by plugging the answers back into the original equation.
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Solve: 
Solve:
To solve, we must set it equal to zero. The above expression is of the form 
, so we can use the quadratic formula:
to solve for the roots which are 
and 
We can check by plugging the roots into the expression and making sure that it equals zero.
To solve, we must set it equal to zero. The above expression is of the form
to solve for the roots which are
We can check by plugging the roots into the expression and making sure that it equals zero.
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What is the sum of the two solutions of the equation x2 + 5x – 24 = 0?
What is the sum of the two solutions of the equation x2 + 5x – 24 = 0?
First you must find the solutions to the equation. This can be done either by using the quadratic formula or by simply finding two numbers whose sum is 5 and whose product is -24 and factoring the equation into (x + 8)(x – 3) = 0. The solutions to the equation are therefore -8 and 3, giving a sum of -5.
First you must find the solutions to the equation. This can be done either by using the quadratic formula or by simply finding two numbers whose sum is 5 and whose product is -24 and factoring the equation into (x + 8)(x – 3) = 0. The solutions to the equation are therefore -8 and 3, giving a sum of -5.
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Solve for x: x2 + 4x = 5
Solve for x: x2 + 4x = 5
Solve by factoring. First get everything into the form Ax2 + Bx + C = 0:
x2 + 4x - 5 = 0
Then factor: (x + 5) (x - 1) = 0
Solve each multiple separately for 0:
X + 5 = 0; x = -5
x - 1 = 0; x = 1
Therefore, x is either -5 or 1
Solve by factoring. First get everything into the form Ax2 + Bx + C = 0:
x2 + 4x - 5 = 0
Then factor: (x + 5) (x - 1) = 0
Solve each multiple separately for 0:
X + 5 = 0; x = -5
x - 1 = 0; x = 1
Therefore, x is either -5 or 1
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If (x + a)(x + b) = x2 – 9x + 18, what are the values for a and b?
If (x + a)(x + b) = x2 – 9x + 18, what are the values for a and b?
a = _–_3, b = _–_6. The sum of a and b have to be equal to _–_9, and they have to multiply together to get +18. If a = _–_3 and b = _–6, (–3) + (–6) = (–9) and (–3)(–_6) = 18.
a = _–_3, b = _–_6. The sum of a and b have to be equal to _–_9, and they have to multiply together to get +18. If a = _–_3 and b = _–6, (–3) + (–6) = (–9) and (–3)(–_6) = 18.
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When asked how many home runs he hit in a season, Pablo Sanchez responded with, "If you square the number of home runs and subtract 50 times the number of home runs, it is equivalent to 50." How many home runs has Pablo hit?
When asked how many home runs he hit in a season, Pablo Sanchez responded with, "If you square the number of home runs and subtract 50 times the number of home runs, it is equivalent to 50." How many home runs has Pablo hit?
We can generate an equation for the number of home runs he has hit, x : x2 - 50x = 50. Reordering this, we get : x2 - 50x - 50 = 0. Using the quadratic equation: x = (-b± √(b2-4ac)) / (2a). In this case, a = 1, b = -50, c = -50. Plugging in these values, we obtain the simplified equation, x = (50±51.96)/2. Therefore, x = 50.98, -0.98. Because it doesn't make sense to have a negative number of home runs, x = 50.98, which rounds up to 51 home runs.
We can generate an equation for the number of home runs he has hit, x : x2 - 50x = 50. Reordering this, we get : x2 - 50x - 50 = 0. Using the quadratic equation: x = (-b± √(b2-4ac)) / (2a). In this case, a = 1, b = -50, c = -50. Plugging in these values, we obtain the simplified equation, x = (50±51.96)/2. Therefore, x = 50.98, -0.98. Because it doesn't make sense to have a negative number of home runs, x = 50.98, which rounds up to 51 home runs.
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Let 
, and let 
. What is the sum of the possible values of 
such that 
.
Let
We are told that f(x) = x2 - 4x + 2, and g(x) = 6 - x. Let's find expressions for f(k) and g(k).
f(k) = k2 – 4k + 2
g(k) = 6 – k
Now, we can set these expressions equal.
f(k) = g(k)
k2 – 4k +2 = 6 – k
Add k to both sides.
k2 – 3k + 2 = 6
Then subtract 6 from both sides.
k2 – 3k – 4 = 0
Factor the quadratic equation. We must think of two numbers that multiply to give us -4 and that add to give us -3. These two numbers are –4 and 1.
(k – 4)(k + 1) = 0
Now we set each factor equal to 0 and solve for k.
k – 4 = 0
k = 4
k + 1 = 0
k = –1
The two possible values of k are -1 and 4. The question asks us to find their sum, which is 3.
The answer is 3.
We are told that f(x) = x2 - 4x + 2, and g(x) = 6 - x. Let's find expressions for f(k) and g(k).
f(k) = k2 – 4k + 2
g(k) = 6 – k
Now, we can set these expressions equal.
f(k) = g(k)
k2 – 4k +2 = 6 – k
Add k to both sides.
k2 – 3k + 2 = 6
Then subtract 6 from both sides.
k2 – 3k – 4 = 0
Factor the quadratic equation. We must think of two numbers that multiply to give us -4 and that add to give us -3. These two numbers are –4 and 1.
(k – 4)(k + 1) = 0
Now we set each factor equal to 0 and solve for k.
k – 4 = 0
k = 4
k + 1 = 0
k = –1
The two possible values of k are -1 and 4. The question asks us to find their sum, which is 3.
The answer is 3.
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Which of the following is a solution to:
Which of the following is a solution to:
You may use the quadratic formula (where 
), which yields two answers, 
and 
.
Since the only solution that appears in the answer list is 
, we choose 
.
You may use the quadratic formula (where
Since the only solution that appears in the answer list is
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