There is not a word for it but it it the rate of change of acceleration.
A speed vs. time graph could also be called a graph of acceleration. This graph will have a constant slope if the increase in speed is constant. It can also form a curved line if there is increasing or decreasing acceleration.
No. Slope of position/time graph is speed, or magnitude of velocity.Slope of speed/time graph is magnitude of acceleration.
A graph that shows speed versus time is not an acceleration graph.The slope of the graph at any point is the acceleration at that time.A straight line shows that the acceleration is constant.
It will measure acceleration in the direction towards or away from the origin.
ski You don't state what the letters stand for, but if velocity (or more accurately, speed) and time then the gradient (dv/dt where "d" means "difference in") will give the acceleration. At constant speed the line will be horizontal so the gradient will = 0, i.e, neither acceleration nor deceleration.
the gradient of the graph
deceleration can be measured from a velocity time graph by calculating the gradient of the velocity time graph if the V-t graph was linear. If the v-t graph was a curve then the differentiatial of the equation of the curve will give the deceleration variation with time.
Calculate the gradient of the curve which will give the acceleration. Change the sign of the answer to convert acceleration into retardation.
A straight line with a gradient > 0 represents a constant rate of acceleration.
You can't. However, you can find the change in speed between two points in time by finding the area under the acceleration-time graph.
It is the gradient (slope) of the line.
A distance vs time squared graph shows shows the relationship between distance and time during an acceleration. An example of an acceleration value would be 3.4 m/s^2. The time is always squared in acceleration therefore the graph can show the rate of which an object is moving
Your acceleration vs. Time graph is the slope of your velocity vs. time graph
The gradient of a distance-time graph gives the object's speed.
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.
It is the downward gradient of the graph.
The gradient of the graph.