Differentiate the graph with respect to time.
You find the average rate of change of the function. That gives you the derivative on different points of the graph.
The slope of a graph.
A low rate of change.
formula to figure out the rate of change of a line on a graph m= y2-y1/x2-x1
Find the slope of the tangent to the graph at the point of interest.
Differentiate the graph with respect to time.
You find the average rate of change of the function. That gives you the derivative on different points of the graph.
The slope of a graph.
A low rate of change.
differentiate with respect to time.
formula to figure out the rate of change of a line on a graph m= y2-y1/x2-x1
Rate of change is essentially the same as the slope of a graph, that is change in y divided by change in x. If the graph is a straight-line, the slope can be easily calculated with the formula:Vertical change ÷ horizontal change = (y2 - y1) / (x2 - x1)
Slopes give you the rate of change. On a distance vs. time graph the rate of change (i.e. the slope) is the velocity. On a Velovity vs. Time graph the rate of change is the acceleration. etc.
The slope of each point on the line on the graph is the rate of change at that point. If the graph is a straight line, then its slope is constant. If the graph is a curved line, then its slope changes.
The answer depends on the rate of change of WHAT? The rate of change of the gas used? the rate of change of the gas left, the rate of change of the range that the vehicle will go? The question is too vague.
Rate of change of the "vertical" variable in relation to the "horizontal" variable.