The x-axis is time and the y-axis is velocity.
Normally x is the horizontal axis and y is the vertical axis
the horizontal axis
ledgends
the slope.
X axis and y axis with negative and positive numbers
In a graph, the independent variable is typically labeled on the x-axis (horizontal axis). This is the variable that is manipulated or controlled in an experiment to observe its effect on the dependent variable, which is usually plotted on the y-axis (vertical axis).
On a graph of acceleration, you would typically label the y-axis as "Acceleration (m/s^2)" and the x-axis as "Time (s)." This allows you to visually represent how acceleration changes with respect to time.
It could be a velocity graph or an acceleration graph. If the plot is a straight line it is constant velocity. If the plot is a curve it is acceleration.
Each axis is labeled with the name of the variable, the unit of measurement, and a range of values.
Normally x is the horizontal axis and y is the vertical axis
The answer depends on what the graph is meant to show. The first step would be to read the axis labels.
Title & Date, Axis's Labeled, All space used up that is given to draw the graph, units (lablel the axis) and always to the best graph for your subject ;)
Acceleration
An acceleration graph typically measures two key factors: acceleration (usually expressed in meters per second squared, m/s²) and time (usually expressed in seconds). The graph plots acceleration on the y-axis and time on the x-axis, allowing for the analysis of how an object's acceleration changes over time. Additionally, the slope of the graph can indicate the rate of change of acceleration, providing insights into the object's motion dynamics.
Constant speed ... zero acceleration.
bottom line on a graph were a number or object is put when you are graphing. they are always labeled
When you graph the motion of an object, you typically put the time on the horizontal axis (x-axis) and the position, velocity, or acceleration of the object on the vertical axis (y-axis). This allows you to visualize how the object's position, velocity, or acceleration changes with time.