The answer depends on what the graph is meant to show. The first step would be to read the axis labels.
parabolic graphs where f(t)=xi + vt + 1/2at^2 f(t) = distance travelled, xi = starting distance, v = starting velocity, t = time elapsed, and a = acceleration.
distance vs time suggests velocity while distance vs time squared suggests acceleration
We could spot the better one in a flash if we could see the graphs. The good one should be a straight horizontal line, since acceleration due to gravity is constant and doesn't depend on mass.
Average Acceleration can be verbally defined as the change in velocity in a certain change in time... More simply put: Average Acceleration = (Final Velocity - Initial Velocity) / (Final Time - Initial Time)
Distance - Time shows speed (by gradient) and distance travelled over a given time. Speed - time shows acceleration and instant speed.
Show me the graphs and I'll get right on it for you.
Constant acceleration motion can be characterized by motion equations and by motion graphs. The graphs of distance, velocity and acceleration as functions.
The answer depends on what information is graphed. There are distance-time graphs, velocity-time graphs, speed-time graphs, acceleration-time graphs.
No, it depends on radial acceleration.
Acceleration is a change in speed or velocity. So if you going faster than your starting speed your accelerating. If your changing direction (a change in velocity) then that is also acceleration.
change in position, also known as the integral of velocity or the second integral of acceleration
Scientists utilise graphs, charts, and tables to not only record data, but to recognize trends or patterns (or the inherent lack of them) in order to come to a conclusion to finish an experiment or a study.
parabolic graphs where f(t)=xi + vt + 1/2at^2 f(t) = distance travelled, xi = starting distance, v = starting velocity, t = time elapsed, and a = acceleration.
Bar graphs and line graphs do not. Straight line, parabolic, and hyperbolic graphs are graphs of an equation.
distance vs time suggests velocity while distance vs time squared suggests acceleration
circle graphs add up to 100% , bar and line graphs don't
Line graphs and Bar graphs