Finding Acceleration Experimentally

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SUMMARY

The discussion focuses on the calculation of acceleration when dropping an object, comparing two methods: the kinematic equation \( a = \frac{2(\Delta x - V_i t)}{t^2} \) and the average velocity method \( a = \frac{\Delta v}{\Delta t} \). Using a displacement (\( \Delta x \)) of 2m and a time (\( t \)) of 0.5s, the first method yields an acceleration of 16 m/s², while the second method results in 8 m/s². The discrepancy arises because the average velocity does not represent the change in velocity, leading to incorrect application in the second method. The first method is confirmed as the correct approach for calculating acceleration in this scenario.

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  • Understanding of kinematic equations in physics
  • Familiarity with concepts of displacement and time
  • Knowledge of average velocity versus instantaneous velocity
  • Basic algebra for manipulating equations
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  • Explore the concept of instantaneous velocity and its significance in physics
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You drop an object. You take the time it takes to hit the ground. So you have Δx (displacement) and Δx (time).

To find acceleration do you use

xf= xi + Vi t + .5at2
Δ x= Vi t + .5at2
Δ x- Vi t=.5at2
a= 2(Δ x- Vit )/ t2

or do you use

v= Δ x/ Δ t
a= Δ v/ Δ t

Should acceleration come out the same? Why do they differ so much? Take example a Δx of 2m and a time of .5. Using the first equation you get 16 m/s^2. But using the second method, you get 8 m/s^2.
 
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Use the first method. The second method is wrong. The key problem is that v=Δx/Δt is an average velocity, not a change in velocity. So you cannot turn around and plug v into the spot for Δv in the second expression. In other words, an average v is not a Δv. In fact, in this case the change in velocity is twice the average velocity (that should not be too surprising) which is where the factor of 2 comes from.
 

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