How to Find Distance from a Velocity-Time Graph

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To find the distance traveled by the runner from the velocity-time graph, the area under the graph represents the displacement. The relevant equation for calculating this area, particularly for a triangular shape, is d = (1/2)(height)(base). In this case, the height corresponds to the final velocity (8 m/s) and the base is the time interval (10 seconds). The calculation reveals that the runner travels 400 meters in 10 seconds, demonstrating the relationship between velocity, time, and distance. Understanding how to derive distance from a velocity-time graph is crucial in physics.
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Homework Statement



How far does the runner whose velocity-time graph is shown in Fig. 2-30 travel in 10 s?

http://img81.imageshack.us/img81/1057/0221bs1.gif

Homework Equations



x = v0t + 1/2at^2

The Attempt at a Solution



x = 10s (0) + 1/2(8m/s)(10s)^2

x = 400m
 
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The x = . . . equation you wrote is relevant to the problem, but there are other relationships involving velocity and time that are more directly useful in this problem. The fact that you are given a graph suggests that the problem is looking for one such relationship in particular. Can you say what it is?
 
Hint: the displacement from t = 0 to some time t1 equals the area under the v(t) graph from the points t = 0 to t1.

Edit: late.
 
There's an easier method to use here, since you are given a graph. Do you know a way to find the distance from a velocity time graph?

edit: haha, even later!
 
OlderDan said:
The x = . . . equation you wrote is relevant to the problem, but there are other relationships involving velocity and time that are more directly useful in this problem. The fact that you are given a graph suggests that the problem is looking for one such relationship in particular. Can you say what it is?

I'll just come out and the say it. The question is asking for the area under the green line.
The whole point of the question is to let you look at the graph, make your own formulas, and come up with an answer. Just looking at the units of velocity and time, you can say that multiplying them together will give a unit of distance. The first basic shape you can see in that graph is a triangle where the runner goes from 0-8m/s in 2 seconds. What's the formula for a triangle? (1/2)(height)(base), which would be (1/2)(Vf - Vi)(t). If you multiply that by t/t (which is 1), you get (1/2)(a)(t^2).
d = (1/2)(a)(t^2) is one of the basic equations you are given in physics, and now you know where it comes from.
 
ShawnD said:
I'll just come out and the say it. The question is asking for the area under the green line.
The whole point of the question is to let you look at the graph, make your own formulas, and come up with an answer. Just looking at the units of velocity and time, you can say that multiplying them together will give a unit of distance. The first basic shape you can see in that graph is a triangle where the runner goes from 0-8m/s in 2 seconds. What's the formula for a triangle? (1/2)(height)(base), which would be (1/2)(Vf - Vi)(t). If you multiply that by t/t (which is 1), you get (1/2)(a)(t^2).
d = (1/2)(a)(t^2) is one of the basic equations you are given in physics, and now you know where it comes from.

THANKS!:smile:
 
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