Acceleration Position vs. Time Graph

In summary: It seems unfair that the author provided an exact answer, and you received a number that is slightly different.
  • #1
Anony-mouse
60
0

Homework Statement


http://img370.imageshack.us/img370/9488/96191446sb5.jpg

Evaluate Ax, the x-component of the acceleration between M and S.

Homework Equations


a=x/t^2

The Attempt at a Solution


M= 48 m at 8.5 s
S= 40 m at 11.5 s

so change of x=-8 m, and change of t = 3s

so a= -8 / (3^2), so -8/9 m/s^2 (or -0.889 m/s^2). Where did I go wrong?
 
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  • #2
Hint: figure out the velocities at M and at S, then the change in velocity between M and S, and then...
 
  • #3
Would the velocity at M be the velocity between R and M, and the velocity at S be the velocity between S and N, or do I have to calculate the instantaneous velocity at each point?
 
  • #4
Anony-mouse said:
Would the velocity at M be the velocity between R and M, and the velocity at S be the velocity between S and N, ...
In this specific case, yes.

... or do I have to calculate the instantaneous velocity at each point?
In general, yes.
 
  • #5
Anony-mouse said:
Would the velocity at M be the velocity between R and M, and the velocity at S be the velocity between S and N, or do I have to calculate the instantaneous velocity at each point?

They are the same thing since the velocity is uniform on those parts of the graph.
 
  • #6
So I ended up calculating 20/3 for the M velocity, and -20/1.5 for the S velocity, which gave me a change of velocity of -20. If the change in time was 3 seconds, then the x-component of the acceleration would be -20/3 m/s^2. But that's not the right answer given.

Is the x component just the -20? I can't figure out what I did wrong.
 
  • #7
Your values look correct, within any reasonable accuracy that can be read from this graph. You should be only slightly off from the "correct" answer. Just how far from the given answer is your value of -6.7 m/s^2?
 
  • #8
I gave this answer: -6.67 m/s^2, so I guess it was a mistake.
 
  • #9
I'm not convinced you made a mistake. You got -6.67 m/s^2. Earlier you said this is not "the right answer given". So what is the right answer given, and how far off are you from it?
 
  • #10
I don't really know, because it is automated and answers aren't revealed till monday, but I can find out within a couple of days. I would like to know what the answer is myself. All I know is that the computer said my answer was wrong and I can't change it.
 
  • #11
It's a little odd that they would require an "exact" answer, given the approximations inherent in reading a graph. You really have correctly solved the problem, but have probably read the numbers on the graph a little differently than the problem author.

By the way, I get -12 m/s for the velocity at S.
 
  • #12
I found out that the correct answer was -6.33 m/s^2... seems kind of unfair to have an exact answer like that without having exact numbers.
 
  • #13
Yes, I agree.
 

1. What is an acceleration position vs. time graph?

An acceleration position vs. time graph is a visual representation of an object's position and how it changes over time. It also shows the object's acceleration, which is the rate at which its velocity is changing.

2. How is an acceleration position vs. time graph different from a velocity vs. time graph?

An acceleration position vs. time graph shows the relationship between position, time, and acceleration, whereas a velocity vs. time graph shows the relationship between velocity, time, and acceleration. In other words, a velocity vs. time graph shows how an object's velocity changes over time, while an acceleration position vs. time graph shows how an object's position changes over time.

3. What does a flat line on an acceleration position vs. time graph indicate?

A flat line on an acceleration position vs. time graph indicates that the object is not accelerating. This means that the object's velocity is constant, and its position is not changing.

4. How can you determine an object's acceleration from an acceleration position vs. time graph?

The slope of the line on an acceleration position vs. time graph represents the object's acceleration. The steeper the slope, the greater the acceleration. This can be calculated by finding the change in velocity over the change in time.

5. What does a curve on an acceleration position vs. time graph indicate?

A curve on an acceleration position vs. time graph indicates that the object's acceleration is changing. This means that the object's velocity is changing at a changing rate, either increasing or decreasing over time.

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