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14y ago

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What do all graphs of quadratic functions have in common?

The graph of a quadratic equation is a parabola.


Is it true that some quadratic functions cannot be graphed?

All quadratic functions with real coefficients can be graphed on a standard x-y graph. Not all quadratic functions have real roots, maybe that's what you were thinking of?


The graph of a quadratic equation is called a?

The graph of a quadratic equation is called a parabola.The graph of a quadratic equation is called a parabola.The graph of a quadratic equation is called a parabola.The graph of a quadratic equation is called a parabola.


The graph of a quadratic relation is a?

The graph of a quadratic relation is a parobolic.


What is the graph for quadratic equation?

the graph for a quadratic equation ct5r


What shape does the quadratic graph make?

The graph of a quadratic equation has the shape of a parabola.


What is a parabola the graph of?

It is the graph of a quadratic equation of the formy = ax^2 + bx + c


What do you call the graph of a quadratic function?

the graph of a quadratic function is a parabola. hope this helps xP


Do all quadratic functions have x intercepts?

No, sometimes the entire graph is completely above (or completely below) the x axis.


Which of the functions below could have created this graph?

To accurately identify which function could have created the graph, I would need to see the specific graph in question. However, common functions that often produce recognizable graphs include linear functions (straight lines), quadratic functions (parabolas), exponential functions (curved growth), and trigonometric functions (sine, cosine waves). If you provide details about the graph's shape or key features, I can help narrow down the possible functions.


What does it mean when the graph of a quadratic function crosses the x axis twice?

When the graph of a quadratic crosses the x-axis twice it means that the quadratic has two real roots. If the graph touches the x-axis at one point the quadratic has 1 repeated root. If the graph does not touch nor cross the x-axis, then the quadratic has no real roots, but it does have 2 complex roots.


What is the relationship between the growth rate of a function and the shape of an n log n graph?

The growth rate of a function is related to the shape of an n log n graph in that the n log n function grows faster than linear functions but slower than quadratic functions. This means that as the input size increases, the n log n graph will increase at a rate that is between linear and quadratic growth.