One dimensional motion magnitude

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Homework Help Overview

The discussion revolves around an object moving in a straight line with constant acceleration, with position data provided at three different time intervals. Participants are tasked with calculating the magnitude of acceleration at a specific time based on this data.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss various methods to calculate acceleration, including finding velocities between measurements and using graphical representations. There are mentions of drawing tangent lines and using graphing calculators to visualize the data.

Discussion Status

Some participants have shared their thoughts on different approaches, with one noting a previous experience that involved drawing tangent lines. Others have suggested using a graphing calculator to analyze the data, while one participant reflects on the nature of constant acceleration and its implications for the graph of velocity versus time.

Contextual Notes

There is a mention of a prior lack of calculus knowledge affecting the approach to similar problems, highlighting the learning curve involved in understanding the concepts of motion and acceleration.

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An object is moving in a straight line with a constant acceleration. Its position is measured at three different times, as shown in the table below.
Time (s) | Position, (m)
56.40 | 9.700
58.20 | 19.042
60.00 | 38.428
Calculate the magnitude of the acceleration at t=58.20 s

I am not quite sure how to start this. I thought you could find the velocities between the three different measurements and use this formula a =(vf-vi)/t.
 
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SMS said:
An object is moving in a straight line with a constant acceleration. Its position is measured at three different times, as shown in the table below.
Time (s) | Position, (m)
56.40 | 9.700
58.20 | 19.042
60.00 | 38.428
Calculate the magnitude of the acceleration at t=58.20 s

I am not quite sure how to start this. I thought you could find the velocities between the three different measurements and use this formula a =(vf-vi)/t.

i had a question like this before. Since i didn't know calculus yet, our teacher just told us to draw the best that we could of a tangent line at t=58.2 to the curve you made with those 3 points.
 
Last edited:
Yep, easiest way is to input that data into a graphing calculator in the table function. Then, graph that line. After that, find that point on your graph and VIOLA!

Paden Roder
 
Ok

OK, I'll put it in my Calc and see what I get.

Thanks PRodQuanta and needhelpperson.
 
oops, i forgot that a constant acceleration has a linear graph with velocity vs time. you can just figure out the change in velocity over the first 2 points and divide it over the change in time. sorry bout that...
 
Yes!

Thanks needhelpperson that worked and really helped. I will remember that for next time.
 
I think if you realize that [tex]x = x_0 + v_0 t - \frac{a t^2}{2}[/tex] then you can use your data to obtain a simple linear system of equations for the three unknowns [tex]x_0[/tex], [tex]v_0[/tex] and [tex]a[/tex]. Then you can use your solution of this system to calculate the acceleration or whatever you want at any time!
 

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