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What else can I help you with?
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.
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.
When can you use linear quadratic functions?
There are linear functions and there are quadratic functions but I am not aware of a linear quadratic function. It probably comes from the people who worked on the circular square.
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.
