You cannot.
Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.
Any equation where variable a = some multiple of variable b2 + constant will graph a parabola.
A constant graph relationship is one where the output value remains the same regardless of the input. Examples include the graph of a horizontal line, such as ( y = 5 ), which indicates that for any value of ( x ), ( y ) will always be 5. Another example is the function ( y = -3 ), where the output is constantly -3 for any input. Such graphs reflect a scenario where there is no change in the dependent variable as the independent variable varies.
Normally the input is on the horizontal axis and the output on the vertical axis.
You cannot.
Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.Suppose a function takes values of a variable, X, as its input, and that it converts it into an output value Y.Then the graph of the function, in the X-Y coordinate plane, is the set of all points (x, y) such that when you input the value x into the function, the output is y.
A graph represents a function if and only if every input generates a single output.
Any equation where variable a = some multiple of variable b2 + constant will graph a parabola.
Usually x (independent) variable is the input and y (dependent variable) is the output.
Usually x (independent) variable is the input and y (dependent variable) is the output.
The zeros of a quadratic function, if they exist, are the values of the variable at which the graph crosses the horizontal axis.
the output of the function which is graphed
Normally the input is on the horizontal axis and the output on the vertical axis.
Range
A function can only have one output for any given input. This means that any x value you choose cannot have multiple corresponding y values. The vertical line test involves looking at a graph and drawing vertical lines over it. If any of the vertical lines you have drawn touch the graph of the function more than once, then the graph does not represent a function.
Each input has only one output. The same input will always produce the same output. The function can be represented by an equation or a graph.