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Calculate the gradient of the curve which will give the acceleration. Change the sign of the answer to convert acceleration into retardation.
Graph both and where they cross is the answer to both.
Acceleration = (change in velocity) divided by (time for the change)
It is the gradient (slope) of the line.
You cannot find the initial velocity from an acceleration-time graph on its own. What you can do is find the change in velocity over the first T units of time. This is the area under the a-t graph from t = 0 to t = T. This may be a simple calculation of the area of a rectangle or a trapezium or may require integration. But, like all integrations, you end up with an unknown constant - in this case the initial velocity. You must have some additional information - usually a boundary condition - that allows you to find this constant and so the initial velocity.
Acceleration=change in y graph/change in x graph
Acceleration is change in velocity per unit time(derivative of velocity with respect to time). If you have a graph or chart of velocity values vs time, then you can calculate (change in velocity) / (change in time). This is the slope of the graph at a specific point in time.Mass, along with acceleration determines force.
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.
Calculate the gradient of the curve which will give the acceleration. Change the sign of the answer to convert acceleration into retardation.
t=(vf-vi)/a
There are many ways to graph 6.5t like using a bar graph, a pictograph or a line graph. When using a pictograph you will find the time and times it by how much.
Find out the time using speed and acceleration, (time=speed/acceleration) and then use it to find out uniform velocity. From that find out uniform acceleration. (as uniform acceleration is equal changes of velocity over equal intervals of time)
Graph both and where they cross is the answer to both.
if the acceleration is constant, then it is a parabola (a=V*t+(at^2)/2). if it isn't, and you are give it's formula in relation to time, then it is possible to find the distance formula by using higher level mathematics(integrals).
how do you find rigiedity of a penis
Acceleration = (change in velocity) divided by (time for the change)
Velocity can only be identified by acceleration or time, even though we can also find it using force