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This is actually a physics experiment. I've collected a set of data

Distance and time it takes for a cart to move down an incline plane. From here, I've calculated the average time (AVERAGE(all t's for that D)) and then velocity ($\frac{D}{t_{avg}}$).

I am then asked to find an "even closer approximate" to the instantaneous velocity of the cart as it passes the midpoint of the incline plane. Also providing the uncertainty (STDERR). How do I do that, isn't D/Average Time the best I can do?

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    Does the cart start with a zero velocity? Do you have a explanation for why the average velocity changes with distance? Might a changing velocity affect the instantaneous velocity at the midpoint?2012-09-09
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    @Henry, Yes the cart starts with 0 velocity. I think the avg velocity changes with distance as the larger the distance, the the cart would have accelerated more (gravity). If the velocity changes (increasing), I think the mid point velocity will be increased?2012-09-09
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    @Henry, also I think I've found how to get an "even closer approximation". I can plot a linear least squares fit in excel. Then I use the equation, letting x (distance) = 0 to find the y intercept which is the instantaneous velocity as $D \Rightarrow 0$. Do you think thats right?2012-09-09
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    You are computing average velocity. Instantaneous velocity is different. It is the velocity at a particular instant in time. In this case it is at the midpoint down the plane.2012-09-09

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