Finding acceleration from a position vs. time

AI Thread Summary
To find acceleration from a displacement vs. time graph, one must derive the velocity from the displacement curve. The graph's curvature suggests it is quadratic, indicating that the second derivative will yield a constant acceleration. By calculating the instantaneous velocities at two points within the interval and applying the formula for acceleration, the correct value can be determined. The area under the curve is not necessary for this calculation, as direct differentiation provides the needed information. Understanding the relationship between displacement, velocity, and acceleration is crucial for solving such problems effectively.
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Homework Statement


Given the following graph of displacement vs time for an object moving in a straight line (assume const accel):
Find the acceleration between t=0 and t=4

Homework Equations


A= ((vi-vf)/2)/time

The Attempt at a Solution


I've tried find the area of t=0 to t=4 in order to convert to velocity and then to acceleration. However, the problem is I don't know how to find the area because the graph is curved. I tried getting the area above the line and subtracting it from the total area of t=0 to t=4. This didn't work because I can't find the area of the hypothetical circle of which the area above the line would be a fraction of. Thanks

P.S. I know there are other questions that ask the same thing but they are either irrelevant to my particular question or went unanswered[/B]
 

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Since you are given displacement vs. time, the derivative at a point will give you the velocity. Taking a derivative of the velocity graph gives you the acceleration.

Since the displacement graph is roughly quadratic on [0, 4] the second derivative will be a constant.

Thus you can find the instantaneous velocity at any two points, take their difference, and divide by time to get the acceleration.
 

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