Yes it does.
We would have to see the graph.
If there is an independent variable, then it will be on the x-axis. Of course, there need not be any independent variable.
Yes
Distance from some fixed point.
instantaneous acceleration* * * * *No it does not.The graph is a distance-time graph so the coordinates of a point on the graph represent the position (distance) at the specified time. The gradient of the tangent to the curve at that point represents the instantaneous radial velocity. The second derivative at that point, if it exists, would represent the acceleration.
manipulated variable
A point can represent a piece of data or an (x,y) value.
We would have to see the graph.
manipulated variable
The Orgin
The Orgin
If there is an independent variable, then it will be on the x-axis. Of course, there need not be any independent variable.
They can do, but there are some circumstances where they may not be particularly useful. If, for example, the observations are not in order of the values of the independent variable, then a line plot will be difficult to read. If there are several different values of the dependent variable for a single value of the independent variable, the graph may be difficult to interpret. If there are two or more observations where the values of both variables are the same, the graph may not indicate that the point is in fact a multiple observation.
The independent variable! =] the dependent variable is what is changed by the independent variable... Eg... And a bad one at that lol... But the affect of salt on the boiling point of water... Salt is independent variable... Dependent is the boiling point =]
One variable inequality- graph the point on the number line then choose a point on the point, to the left and to the right to see what gets shaded. Two variable inequality- graph the line on grid paper then choose a point on the line, to the left and to the right to see what gets shaded.
Yes
Because each vertical lines meets its graph in a unique point.