Finding Position at a Specific Time Using Kinematic Equations

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The discussion focuses on calculating the position of a particle at t=5s using kinematic equations. The particle starts from rest at 0m with an initial velocity of 0m/s, and the user attempts to find the position by breaking the problem into two segments due to changing acceleration. Initial calculations for the first segment yield 4.5m at t=3s, and subsequent calculations suggest adding this to the next segment's result, leading to confusion. The key correction is that the position from the first segment should not be added again, as it is already accounted for in the second segment's calculations.
onetroubledguy
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Ok here's the graph:

http://img268.imageshack.us/img268/8762/acvt9nz.jpg

We are given that the particle starts from rest at the initial position 0m with the initial velocity 0m/s. I need to find what the position of the particle is at t=5s.

Since acceleration is changing here, I didn't know what to do so I broke the problem up. First, I wanted to find the position at t=3s. I used the equation
x = x0 + v0t + 1/2at^2 where x0 = 0m, v0 = 0m/s, a = 1m/s^2, and t = 3s.
I came up with 4.5m.

Next, I did the same thing for the lower part; I used the same equation but with x0 = 4.5m, v0 = 3m/s, a = -2m/s^2, and t = 2s. I came up with 6.5m and added it to first distance (4.5m) to get 11m.

Obviously this is wrong. Any help you can provide would be much appreciated. Thank you.
 
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onetroubledguy said:
Ok here's the graph:

http://img268.imageshack.us/img268/8762/acvt9nz.jpg

We are given that the particle starts from rest at the initial position 0m with the initial velocity 0m/s. I need to find what the position of the particle is at t=5s.

Since acceleration is changing here, I didn't know what to do so I broke the problem up. First, I wanted to find the position at t=3s. I used the equation
x = x0 + v0t + 1/2at^2 where x0 = 0m, v0 = 0m/s, a = 1m/s^2, and t = 3s.
I came up with 4.5m.

Next, I did the same thing for the lower part; I used the same equation but with x0 = 4.5m, v0 = 3m/s, a = -2m/s^2, and t = 2s. I came up with 6.5m and added it to first distance (4.5m) to get 11m.

Obviously this is wrong. Any help you can provide would be much appreciated. Thank you.


wouldn't it be just the answer to your second part? you're starting at the point where the first part left off. you don't need to add that onto your answer as you've already accouned for the position up to 3 seconds with the x_0 in your second kinematic eqation.
 
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your individual calculations are correct. However, you have to be careful of the SIGN of the acceleration in each part. What is the acceleration (as read fro mteh graph) for the first 3 seconds and then the final 2 seconds?
 
teclo said:
wouldn't it be just the answer to your second part? you're starting at the point where the first part left off. you don't need to add that onto your answer as you've already accouned for the position up to 3 seconds with the x_0 in your second kinematic eqation.

You're right. I always do stupid things like that! Grr...thanks.
 

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