Answer:
2. y-axis symmetry
Step-by-step explanation:
Functions are symmetric with respect to the x-axis if for every point (a, b) on the graph, there is also a point (a, −b) on the graph:
To determine if a graph is symmetric with respect to the x-axis, replace all the y's with (−y). If the resultant expression is equivalent to the original expression, the graph is symmetric with respect to the x-axis.
[tex]\begin{aligned}&\textsf{Given}: \quad &x^2-y&=9\\&\textsf{Replace $y$ for $(-y)$}: \quad &x^2-(-y)&=9\\&\textsf{Simplify}: \quad &x^2+y&=9\end{aligned}[/tex]
Therefore, since the resultant expression is not equivalent to the original expression, it is not symmetric with respect to the x-axis.
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Functions are symmetric with respect to the y-axis if for every point (a, b) on the graph, there is also a point (-a, b) on the graph:
To determine if a graph is symmetric with respect to the x-axis, replace all the x's with (−x). If the resultant expression is equivalent to the original expression, the graph is symmetric with respect to the y-axis.
[tex]\begin{aligned}&\textsf{Given}: \quad &x^2-y&=9\\&\textsf{Replace $x$ for $(-x)$}: \quad &(-x)^2-y&=9\\&\textsf{Simplify}: \quad &x^2+y&=9\end{aligned}[/tex]
Therefore, since the resultant expression is equivalent to the original expression, it is symmetric with respect to the y-axis.
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Functions are symmetric with respect to the origin if for every point (a, b) on the graph, there is also a point (-a, -b) on the graph:
To determine if a graph is symmetric with respect to the origin, replace all the x's with (−x) and all the y's with (-y). If the resultant expression is equivalent to the original expression, the graph is symmetric with respect to the origin.
[tex]\begin{aligned}&\textsf{Given}: \quad &x^2-y&=9\\&\textsf{Replace $x$ for $(-x)$ and $y$ for $(-y)$}: \quad &(-x)^2-(-y)&=9\\&\textsf{Simplify}: \quad &x^2+y&=9\end{aligned}[/tex]
Therefore, since the resultant expression is not equivalent to the original expression, it is not symmetric with respect to the origin.
