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What best describes a linear function?
A linear function is a function, or equation, that when graphed, will form a straight line.
How can you tell by looking at an function if it is linear or nonlinear?
You can determine if a function is linear by examining its graph or its equation. A linear function will produce a straight line when graphed, and its equation can be expressed in the form (y = mx + b), where (m) and (b) are constants. In contrast, a nonlinear function will create a curve or other shapes on the graph, and its equation may involve exponents, products of variables, or other non-linear terms.
What are coordinates of the x-intercept of the graphed function?
The coordinates of the x-intercept of a graphed function are found where the function crosses the x-axis. At this point, the y-coordinate is zero. To determine the x-intercept, you can set the function equal to zero and solve for x. The resulting x-value gives you the coordinates in the form (x, 0).
What is a quadratic equation when graphed?
The graph (on Cartesian coordinates) of a quadratic equation is a parabola.
Which interval for the graphed function contains the local maximum?
To determine the interval containing the local maximum for a graphed function, you need to identify the highest point in the vicinity of the graph. This is typically where the function changes from increasing to decreasing. Look for the x-value where the function reaches its peak before descending, and that x-value will help define the interval containing the local maximum.
What best describes a linear function?
A linear function is a function, or equation, that when graphed, will form a straight line.
Is the equation for a circle a function?
The equation for a circle is a function in that it can be graphed and charted. One common equation is x^2 + y^2 = r^2.
How can you tell by looking at an function if it is linear or nonlinear?
You can determine if a function is linear by examining its graph or its equation. A linear function will produce a straight line when graphed, and its equation can be expressed in the form (y = mx + b), where (m) and (b) are constants. In contrast, a nonlinear function will create a curve or other shapes on the graph, and its equation may involve exponents, products of variables, or other non-linear terms.
What is the range for the function graphed as shown?
As shown, the function has neither range nor domain.
Which quadratic function when graphed has x-intercepts of -5 and 2?
(x + 5)(x - 2)x2 + 3x - 10this is your quadratic equation
What are coordinates of the x-intercept of the graphed function?
The coordinates of the x-intercept of a graphed function are found where the function crosses the x-axis. At this point, the y-coordinate is zero. To determine the x-intercept, you can set the function equal to zero and solve for x. The resulting x-value gives you the coordinates in the form (x, 0).
What is a quadratic equation when graphed?
The graph (on Cartesian coordinates) of a quadratic equation is a parabola.
What is an equation that forms a line when graphed?
y=mx+b
A linear equation cannot always be graphed by using intercepts alone?
Yes it can. A linear equation in the form of y=mx+b can always be graphed used the x and y intercepts.
Is y equals 1X an exponential function?
No, the equation ( y = 1x ) is not an exponential function; it represents a linear function. In this equation, ( y ) is directly proportional to ( x ), resulting in a straight line when graphed. An exponential function typically has the form ( y = a \cdot b^x ), where ( b ) is a constant greater than zero and not equal to one.
When a function is graphed is the dependent variable usually measured along the x-axis?
When a function is graphed, the dependent variable is usually measured along the y-axis. This is because y is the function of x.
When a function is graphed the dependent variable is usually measured along the x-axis.?
When a function is graphed, the dependent variable is usually measured along the y-axis. This is because y is the function of x.
