Quadratic equations: Intersection points of parabolas
Intersection points of a parabola with a line
A quadratic formula #y=a_1x^2+b_1x+c_1# and a linear formula #y=a_2x+b_2# can have zero, one or two intersection points. We will now investigate how to find these intersection points.
Intersection points parabola and line
Procedure |
geogebra plaatje
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We determine the intersection point of the parabola #y=a_1x^2+b_1x+c_1# and the line #y=a_2x+b_2#. |
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Step 1 |
First we determine the #x#-coordinate of the intersection point by solving the equation \[a_1x^2+b_1x+c_1=a_2x+b_2\] by means of factorization, completing the square or the quadratic formula. |
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Step 2 |
We determine the #y#-coordinate of the intersection point by substituting the obtained #x#-coordinate in one of both formulas. Usually it is easier to substitute in the linear formula. |
The last step indicates that given the graphs \[y = -x^2-8\cdot x\phantom{xxx}\text{ and }\phantom{xxx} y = -x\]
intersect each other at two points. Determine the two intersection points.
Give your answer in the form #\left\{\rv{a,b},\rv{c,d}\right\}#, in which #a#, #b#, #c#, #d# are exact numbers.
intersect each other at two points. Determine the two intersection points.
Give your answer in the form #\left\{\rv{a,b},\rv{c,d}\right\}#, in which #a#, #b#, #c#, #d# are exact numbers.
#\left \{\rv{ -7 , 7 } , \rv{ 0 , 0 } \right \} #
The #x#-coordinate of a point lying on both parabolas must satisfy
\[-x^2-8\cdot x = -x\tiny.\]
We solve this equation, after reduction, by factorization.
\[\begin{array}{rcl}
-x^2-7\cdot x &=& 0\\
&&\phantom{xxx}\color{blue}{\text{all terms to the left hand side}}\\
x^2+7\cdot x &=& 0\\ &&\phantom{xxx}\color{blue}{\text{left and right hand side multiplied by -1 }}\\
x\cdot \left(x+7\right) &=&0 \\
&&\phantom{xxx}\color{blue}{\text{factorized}}\\
x = 0 &\lor& x+7=0 \\
&&\phantom{xxx}\color{blue}{A\cdot B=0 \text{ if and only if }A=0\lor B=0}\\
x=0 &\lor& x=-7 \\
&&\phantom{xxx}\color{blue}{\text{constant term to the right hand side}}\\
\end{array}\]
Now we can calculate the corresponding #y#-value by entering this #x#-value in one of both formulas. In this case it is most convenient to choose the linear function. First we calculate the #y#-value at #x=-7#.
\[\begin{array}{rcl}
y&= & -\left(-7\right) = 7
\end{array}\]
Next we calculate the #y#-value at #x=0#.
\[\begin{array}{rcl}
y&=& 0
\end{array}\]
The conclusion is that the #2# points of intersection are given by: \[ \left \{\rv{ -7 , 7 } , \rv{ 0 , 0 } \right \}\tiny. \]
The #x#-coordinate of a point lying on both parabolas must satisfy
\[-x^2-8\cdot x = -x\tiny.\]
We solve this equation, after reduction, by factorization.
\[\begin{array}{rcl}
-x^2-7\cdot x &=& 0\\
&&\phantom{xxx}\color{blue}{\text{all terms to the left hand side}}\\
x^2+7\cdot x &=& 0\\ &&\phantom{xxx}\color{blue}{\text{left and right hand side multiplied by -1 }}\\
x\cdot \left(x+7\right) &=&0 \\
&&\phantom{xxx}\color{blue}{\text{factorized}}\\
x = 0 &\lor& x+7=0 \\
&&\phantom{xxx}\color{blue}{A\cdot B=0 \text{ if and only if }A=0\lor B=0}\\
x=0 &\lor& x=-7 \\
&&\phantom{xxx}\color{blue}{\text{constant term to the right hand side}}\\
\end{array}\]
Now we can calculate the corresponding #y#-value by entering this #x#-value in one of both formulas. In this case it is most convenient to choose the linear function. First we calculate the #y#-value at #x=-7#.
\[\begin{array}{rcl}
y&= & -\left(-7\right) = 7
\end{array}\]
Next we calculate the #y#-value at #x=0#.
\[\begin{array}{rcl}
y&=& 0
\end{array}\]
The conclusion is that the #2# points of intersection are given by: \[ \left \{\rv{ -7 , 7 } , \rv{ 0 , 0 } \right \}\tiny. \]
We see that the calculated intersection points match the intersection points identified in step 1. See the figure below, in which the intersection points are drawn in red.
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