The graph of y = c, a constant will be a straight line parallel to the x-axis and c units from it..
the difference between a constant in a graph and a constant in a experiment is that when on a graph, the constant is the thing that changes, and in a experiment it is the part that stays the same.
linear?
I believe trends in data should be presented in a graph.
That kind of depends on what is being graphed. -- On a graph of acceleration vs time, the graph is a straight line that lays right on top of the x-axis, because the acceleration is a constant zero. -- On a graph of speed vs time, constant speed is a horizontal line, parallel to the x-axis. -- On a graph of distance vs time, constant speed is a straight line with a positive slope; that is, it rises as it progresses toward the right.
The graph is a straight line. Its slope is the speed.
the difference between a constant in a graph and a constant in a experiment is that when on a graph, the constant is the thing that changes, and in a experiment it is the part that stays the same.
The answer depends on what the graph is of!
A line. The derivative of a function is its slope. If the slope is a constant then the graph is a line.
The highest point on a graph is when the derivative of the graph equals 0 or the slope is constant.
On a graph of velocity and time, a constant speed would appear as a straight horizontal line.
Constant speed is shown on a graph using straight lines. The straight line indicates that there are no fluctuations with the speed.
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.
linear?
The graph is linear.
The answer depends on what the constant is: the y-intercept in a linear graph, constant of proportionality, constant of integration, physical [universal] constant.
On a V-t graph, constant speed is shown as a horizontal line.
If the constant acceleration is positive, the graph would be an exponential (x2) graph. If there is constant acceleration, then velocity is always increasing, making the position change at an ever increasing rate.