Understanding Quadratic Equations - Algebra 2
Card 1 of 624
Evaluate the discriminant, if any: 
Evaluate the discriminant, if any:
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The formula to determine the discriminant is: 
To determine the discriminant, we will need to put the equation in standard form:
Add 
on both sides.
Subtract 
on both sides.
Reorder the terms on the left.
Divide by two on both sides.
The equation in standard form is: 
The coefficients can be determined to calculate the discriminant.
Substitute the values into the formula.
The answer is: 
The formula to determine the discriminant is:
To determine the discriminant, we will need to put the equation in standard form:
Add
Subtract
Reorder the terms on the left.
Divide by two on both sides.
The equation in standard form is:
The coefficients can be determined to calculate the discriminant.
Substitute the values into the formula.
The answer is:
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Determine the discriminant: 
Determine the discriminant:
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The formula for the discriminant is:
Given the polynomial in standard format, we can identify the coefficients of the polynomial to substitute into the equation.
Substitute all the numbers into the equation.
The answer is: 
The formula for the discriminant is:
Given the polynomial in standard format, we can identify the coefficients of the polynomial to substitute into the equation.
Substitute all the numbers into the equation.
The answer is:
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Evaluate the discriminant: 
Evaluate the discriminant:
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Write the formula for the discriminant. The discriminant is the term inside the square root of the quadratic formula.
Determine the coefficients.
Substitute the terms into the formula.
The answer is: 
Write the formula for the discriminant. The discriminant is the term inside the square root of the quadratic formula.
Determine the coefficients.
Substitute the terms into the formula.
The answer is:
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Use FOIL to distribute the following:
Use FOIL to distribute the following:
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Make sure you keep track of negative signs when doing FOIL, especially when doing the Outer and Inner steps.
Make sure you keep track of negative signs when doing FOIL, especially when doing the Outer and Inner steps.
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Use FOIL to distribute the following:
Use FOIL to distribute the following:
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When the 2 terms differ only in their sign, the 
-term drops out from the final product.
When the 2 terms differ only in their sign, the
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Evaluate 
Evaluate
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In order to evaluate 
one needs to multiply the expression by itself using the laws of FOIL. In the foil method, one multiplies in the following order: first terms, outer terms, inner terms, and last terms.
Multiply terms by way of FOIL method.
Now multiply and simplify.
In order to evaluate
Multiply terms by way of FOIL method.
Now multiply and simplify.
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Expand this expression:
Expand this expression:
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Use the FOIL method (First, Outer, Inner, Last):
Put all of these terms together:
Combine like terms:
Use the FOIL method (First, Outer, Inner, Last):
Put all of these terms together:
Combine like terms:
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Find the discriminant for the quadratic equation 
Find the discriminant for the quadratic equation
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The discriminant is found using the formula 
. In this case:
The discriminant is found using the formula
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Simplify:
Simplify:
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Find the discriminant for the quadratic equation 
Find the discriminant for the quadratic equation
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To find the discriminant, use the formula 
. In this case:
To find the discriminant, use the formula
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Determine the number of real roots the given function has:
Determine the number of real roots the given function has:
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To determine the amount of roots a given quadratic function has, we must find the discriminant, which for
is equal to
If d is negative, then we have two roots that are complex conjugates of one another. If d is positive, than we have two real roots, and if d is equal to zero, then we have only one real root.
Using our function and the formula above, we get
Thus, the function has only one real root.
To determine the amount of roots a given quadratic function has, we must find the discriminant, which for
is equal to
If d is negative, then we have two roots that are complex conjugates of one another. If d is positive, than we have two real roots, and if d is equal to zero, then we have only one real root.
Using our function and the formula above, we get
Thus, the function has only one real root.
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Determine the discriminant for: 
Determine the discriminant for:
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Identify the coefficients for the polynomial 
.
Write the expression for the discriminant. This is the expression inside the square root from the quadratic formula.
Substitute the numbers.
The answer is: 
Identify the coefficients for the polynomial
Write the expression for the discriminant. This is the expression inside the square root from the quadratic formula.
Substitute the numbers.
The answer is:
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Given 
, what is the value of the discriminant?
Given
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In general, the discriminant is 
.
In this particual case 
.
Plug in these three values and simplify: 
In general, the discriminant is
In this particual case
Plug in these three values and simplify:
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Find the value of the discriminant and state the number of real and imaginary solutions.
Find the value of the discriminant and state the number of real and imaginary solutions.
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Given the quadratic equation of 
The formula for the discriminant is 
(remember this as a part of the quadratic formula?)
Plugging in values to the discriminant equation:
So the discriminant is 57. What does that mean for our solutions? Since it is a positive number, we know that we will have 2 real solutions. So the answer is:
57, 2 real solutions
Given the quadratic equation of
The formula for the discriminant is
Plugging in values to the discriminant equation:
So the discriminant is 57. What does that mean for our solutions? Since it is a positive number, we know that we will have 2 real solutions. So the answer is:
57, 2 real solutions
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Find the discriminant for the quadratic equation 
Find the discriminant for the quadratic equation
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The discriminant is found by using the formula 
. In this case:
The discriminant is found by using the formula
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Find the discriminant, 
, in the following quadratic expression:
Find the discriminant,
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Remember the quadratic formula:
.
The discriminant in the quadratic formula is the term that appears under the square root symbol. It tells us about the nature of the roots.
So, to find the discriminant, all we need to do is compute 
for our equation, where 
.
We get 
.
Remember the quadratic formula:
The discriminant in the quadratic formula is the term that appears under the square root symbol. It tells us about the nature of the roots.
So, to find the discriminant, all we need to do is compute
We get
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What is the discriminant of the following quadratic equation? Are its roots real?
What is the discriminant of the following quadratic equation? Are its roots real?
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The "discriminant" is the name given to the expression that appears under the square root (radical) sign in the quadratic formula, 
where 
, 
, and 
are the numbers in the general form of a quadratic trinomial: 
. If the discriminant is positive, the equation has real roots, and if it is negative, we have imaginary roots. In this case, 
, 
, and 
, so the discriminant is 
, and because it is negative, this equation's roots are not real.
The "discriminant" is the name given to the expression that appears under the square root (radical) sign in the quadratic formula,
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Determine the discriminant of the following quadratic equation 
.
Determine the discriminant of the following quadratic equation
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The discriminant is found using the equation 
. So for the function 
, 
,
, and 
. Therefore the equation becomes 
.
The discriminant is found using the equation
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Choose the answer that is the most correct out of the following options.
How many solutions does the function 
have?
Choose the answer that is the most correct out of the following options.
How many solutions does the function
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The number of roots can be found by looking at the discriminant. The discriminant is determined by 
. For this function, 
,
, and 
. Therfore, 
. When the discriminant is positive, there are two real solutions to the function.
The number of roots can be found by looking at the discriminant. The discriminant is determined by
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What is the discriminant for the function 
?
What is the discriminant for the function
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Given that quadratics can be written as 
. The discriminant can be found by looking at 
or the value under the radical of the quadratic formula. Using substiution and order of operations we can find this value of the discriminant of this quadratic equation.
Given that quadratics can be written as
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