Solution - Quadratic equations
Other Ways to Solve
Quadratic equationsStep by Step Solution
Reformatting the input :
Changes made to your input should not affect the solution:
(1): "x4" was replaced by "x^4".
Step by step solution :
Step 1 :
Equation at the end of step 1 :
22x4 - 4x = 0
Step 2 :
Step 3 :
Pulling out like terms :
3.1 Pull out like factors :
4x4 - 4x = 4x • (x3 - 1)
Trying to factor as a Difference of Cubes:
3.2 Factoring: x3 - 1
Theory : A difference of two perfect cubes, a3 - b3 can be factored into
(a-b) • (a2 +ab +b2)
Proof : (a-b)•(a2+ab+b2) =
a3+a2b+ab2-ba2-b2a-b3 =
a3+(a2b-ba2)+(ab2-b2a)-b3 =
a3+0+0-b3 =
a3-b3
Check : 1 is the cube of 1
Check : x3 is the cube of x1
Factorization is :
(x - 1) • (x2 + x + 1)
Trying to factor by splitting the middle term
3.3 Factoring x2 + x + 1
The first term is, x2 its coefficient is 1 .
The middle term is, +x its coefficient is 1 .
The last term, "the constant", is +1
Step-1 : Multiply the coefficient of the first term by the constant 1 • 1 = 1
Step-2 : Find two factors of 1 whose sum equals the coefficient of the middle term, which is 1 .
| -1 | + | -1 | = | -2 | ||
| 1 | + | 1 | = | 2 |
Observation : No two such factors can be found !!
Conclusion : Trinomial can not be factored
Equation at the end of step 3 :
4x • (x - 1) • (x2 + x + 1) = 0
Step 4 :
Theory - Roots of a product :
4.1 A product of several terms equals zero.
When a product of two or more terms equals zero, then at least one of the terms must be zero.
We shall now solve each term = 0 separately
In other words, we are going to solve as many equations as there are terms in the product
Any solution of term = 0 solves product = 0 as well.
Solving a Single Variable Equation :
4.2 Solve : 4x = 0
Divide both sides of the equation by 4:
x = 0
Solving a Single Variable Equation :
4.3 Solve : x-1 = 0
Add 1 to both sides of the equation :
x = 1
Parabola, Finding the Vertex :
4.4 Find the Vertex of y = x2+x+1
Parabolas have a highest or a lowest point called the Vertex . Our parabola opens up and accordingly has a lowest point (AKA absolute minimum) . We know this even before plotting "y" because the coefficient of the first term, 1 , is positive (greater than zero).
Each parabola has a vertical line of symmetry that passes through its vertex. Because of this symmetry, the line of symmetry would, for example, pass through the midpoint of the two x -intercepts (roots or solutions) of the parabola. That is, if the parabola has indeed two real solutions.
Parabolas can model many real life situations, such as the height above ground, of an object thrown upward, after some period of time. The vertex of the parabola can provide us with information, such as the maximum height that object, thrown upwards, can reach. For this reason we want to be able to find the coordinates of the vertex.
For any parabola,Ax2+Bx+C,the x -coordinate of the vertex is given by -B/(2A) . In our case the x coordinate is -0.5000
Plugging into the parabola formula -0.5000 for x we can calculate the y -coordinate :
y = 1.0 * -0.50 * -0.50 + 1.0 * -0.50 + 1.0
or y = 0.750
Parabola, Graphing Vertex and X-Intercepts :
Root plot for : y = x2+x+1
Axis of Symmetry (dashed) {x}={-0.50}
Vertex at {x,y} = {-0.50, 0.75}
Function has no real roots
Solve Quadratic Equation by Completing The Square
4.5 Solving x2+x+1 = 0 by Completing The Square .
Subtract 1 from both side of the equation :
x2+x = -1
Now the clever bit: Take the coefficient of x , which is 1 , divide by two, giving 1/2 , and finally square it giving 1/4
Add 1/4 to both sides of the equation :
On the right hand side we have :
-1 + 1/4 or, (-1/1)+(1/4)
The common denominator of the two fractions is 4 Adding (-4/4)+(1/4) gives -3/4
So adding to both sides we finally get :
x2+x+(1/4) = -3/4
Adding 1/4 has completed the left hand side into a perfect square :
x2+x+(1/4) =
(x+(1/2)) • (x+(1/2)) =
(x+(1/2))2
Things which are equal to the same thing are also equal to one another. Since
x2+x+(1/4) = -3/4 and
x2+x+(1/4) = (x+(1/2))2
then, according to the law of transitivity,
(x+(1/2))2 = -3/4
We'll refer to this Equation as Eq. #4.5.1
The Square Root Principle says that When two things are equal, their square roots are equal.
Note that the square root of
(x+(1/2))2 is
(x+(1/2))2/2 =
(x+(1/2))1 =
x+(1/2)
Now, applying the Square Root Principle to Eq. #4.5.1 we get:
x+(1/2) = √ -3/4
Subtract 1/2 from both sides to obtain:
x = -1/2 + √ -3/4
In Math, i is called the imaginary unit. It satisfies i2 =-1. Both i and -i are the square roots of -1
Since a square root has two values, one positive and the other negative
x2 + x + 1 = 0
has two solutions:
x = -1/2 + √ 3/4 • i
or
x = -1/2 - √ 3/4 • i
Note that √ 3/4 can be written as
√ 3 / √ 4 which is √ 3 / 2
Solve Quadratic Equation using the Quadratic Formula
4.6 Solving x2+x+1 = 0 by the Quadratic Formula .
According to the Quadratic Formula, x , the solution for Ax2+Bx+C = 0 , where A, B and C are numbers, often called coefficients, is given by :
- B ± √ B2-4AC
x = ————————
2A
In our case, A = 1
B = 1
C = 1
Accordingly, B2 - 4AC =
1 - 4 =
-3
Applying the quadratic formula :
-1 ± √ -3
x = —————
2
In the set of real numbers, negative numbers do not have square roots. A new set of numbers, called complex, was invented so that negative numbers would have a square root. These numbers are written (a+b*i)
Both i and -i are the square roots of minus 1
Accordingly,√ -3 =
√ 3 • (-1) =
√ 3 • √ -1 =
± √ 3 • i
√ 3 , rounded to 4 decimal digits, is 1.7321
So now we are looking at:
x = ( -1 ± 1.732 i ) / 2
Two imaginary solutions :
x =(-1+√-3)/2=(-1+i√ 3 )/2= -0.5000+0.8660i or:
x =(-1-√-3)/2=(-1-i√ 3 )/2= -0.5000-0.8660i
Four solutions were found :
- x =(-1-√-3)/2=(-1-i√ 3 )/2= -0.5000-0.8660i
- x =(-1+√-3)/2=(-1+i√ 3 )/2= -0.5000+0.8660i
- x = 1
- x = 0
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