Investigating Particle's Acceleration from Position-Time Graph

AI Thread Summary
To determine the particle's acceleration from the position-time graph, start by identifying the shape of the graph, which is concave up, indicating positive acceleration. Use the given points (0,-2), (1,0), and (2,6) to fit a quadratic curve, as the motion suggests constant acceleration. Differentiate the position function twice to find the velocity and then the acceleration. The acceleration will be expressed in m/s², and the direction can be determined based on the sign of the acceleration value. This approach will help clarify the particle's motion along the x-axis.
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Homework Statement




The figure below depicts the motion of a particle moving along an x-axis with a constant acceleration. What are the magnitude and direction of the particle's acceleration?

Can anyone explain to me where to begin on this one? It's a graph of position of time. It's concave up going through points (0,-2), (1,0), and (2,6).

The answer should be in m/s^2. It also let's me choose between -x, +x, -y, and +y for direction.



Homework Equations





The Attempt at a Solution



We didn't do any examples of this in class. I'm not sure where to begin on this one. Of course I don't expect an exact answer, but can someone walk me through it with an explanation. I know x(t)'= v(t) and x(t)"= v(t)'= a(t).
 
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One thing you could try is to fit a curve to these three data points and then use the differentiation formulas you wrote down to find the acceleration of the particle.
 

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