Let's explore how a quadratic function changes using the applet below. What happens when we change the sliders for enlargement, reflection, vertical translation and horizontal translation? Can you describe what changes these values make to the quadratic function?
These movements are called transformations. Transform means change, and these transformations change the simple quadratic $y=x^2$y=x2 into other quadratics by moving (translating), flipping (reflecting) and making the graph appear more or less steep (enlarging).
By using the above applet, step through these instructions:
How has the graph changed? Can you visualise the changes without using the applet? What is the resulting equation?
Transforming a quadratic will change its equation. Here are some of the most common types of quadratic equations, and what they mean with regards to the transformations that have occurred.
$y=ax^2$y=ax2
If $a<0$a<0 (that is, $a$a is negative) then we have a reflection parallel to the $x$x-axis. It's like the quadratic has been flipped upside down.
Shows the reflection of
$y=x^2$y=x2 to $y=-x^2$y=−x2
Shows the reflection of
$y=\left(x-1\right)\left(x+2\right)$y=(x−1)(x+2) to $y=-\left(x-1\right)\left(x+2\right)$y=−(x−1)(x+2)
$y=ax^2$y=ax2
This is a quadratic that has been enlarged vertically by a factor of $a$a.
If $\left|a\right|>1$|a|>1 then the graph is steeper than $y=x^2$y=x2.
If $\left|a\right|<1$|a|<1 then the graph is flatter than $y=x^2$y=x2.
$y=ax^2+k$y=ax2+k
In the graph $y=ax^2+k$y=ax2+k, the quadratic has been vertically translated by $k$k units.
If $k>0$k>0 then the translation is up.
If $k<0$k<0 then the translation is down.
$y=\left(x-h\right)^2$y=(x−h)2
The $h$h indicates the horizontal translation.
If $h>0$h>0, that is the factor in the brackets is $\left(x-h\right)$(x−h) than we have a horizontal translation of $h$h units right.
If $h<0$h<0, that is the factor in the brackets is $\left(x-\left(-h\right)\right)=\left(x+h\right)$(x−(−h))=(x+h) than we have a horizontal translations of $h$h units left.
The turning point of a quadratic is the point where the function turns. This point is also known as the vertex of the parabola.
It changes from being decreasing to increasing, like in this positive quadratic.
Or changes from being increasing to decreasing, like in this negative quadratic.
The form $y=a\left(x-h\right)^2+k$y=a(x−h)2+k is called turning point form. It's really useful for two reasons:
The form $y=a\left(x-h\right)^2+k$y=a(x−h)2+k shows us:
If $\left|a\right|>1$|a|>1 then the quadratic is steeper than $x^2$x2.
If $\left|a\right|<1$|a|<1 then the quadratic is flatter than $x^2$x2.
If $a<0$a<0 then the quadratic is a reflection of $ax^2$ax2 on a line parallel to the $x$x-axis.
If $k>0$k>0 then the translation is up.
If $k<0$k<0 then the translation is down.
If $h<0$h<0 then the translation is to the left, and $x+h$x+h appears in the brackets.
If $h>0$h>0 then the translation is to the right, and $x-h$x−h appears in the brackets.
The function $y=-5x^2$y=−5x2 has what enlargement factor?
Enlargement factor $=$= $\editable{}$
The quadratic $y=x^2$y=x2 has been transformed into $y=3\left(x-4\right)^2$y=3(x−4)2. Has there been a reflection?
Yes, across the $x$x-axis
Yes, across the $y$y-axis
No$\text{ }$
The quadratic $y=x^2$y=x2 has been transformed into $y=-4\left(x+10\right)^2$y=−4(x+10)2. Identify the vertical translation.
$0$0 units up or down
$4$4 units up
$10$10 units down
$10$10 units up
The quadratic $y=x^2$y=x2 has been transformed into the following graph:
What is the vertical translation?
$4$4 units up
$4$4 units down
$3$3 units down
$3$3 units up
What is the horizontal translation?
$3$3 units right
$4$4 units left
$3$3 units left
$4$4 units right
Has the curve been reflected about the $x$x-axis?
No
Yes
Has this quadratic had a change in enlargement from the standard $y=x^2$y=x2 curve?
Yes
No