qa3

#$&*

course Mth 271

9/15 9p

003.

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Question: `q001. Sketch a graph similar to that you constructed for the stock values, this time for the depth of the water vs. clock time (depths 80, 40, 20 at clock times 10, 40, 90). Your first point, for example, will be (10, 80). Connect these points with straight lines and determine the slopes of the lines.

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Your solution:

40-80 = -40

----------------- -40/30 = -4/3 slope of the line connecting (10,80) to (40,40)

40-10 = 30

90-40 = 50

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20-40 -20 50/-20 = 5/-2 slope of the line connecting (40,40) to (20,90)

confidence rating #$&*:ok

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Given Solution:

`aThe three points are (10, 80), (40, 40) and (90, 20).

From the first point to the second the rise is from 80 to 40, or -40, and the run is from 10 to 40, or 30. So the slope is -40 / 30 = -1.33.

From the second point to the third the rise is from 40 to 20, or -20, and the run is from 40 to 90, or 50, so the slope is -20 / 50 = -.4. Click on 'Next Picture' to see graph.

`routine graph3

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Self-critique (if necessary): I understand it. As usual I am doing this at the end of a trying day, and I wrote my point down backwards( 20, 90) instead of (90, 20) which is clearly a careless mistake.

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Self-critique Rating: 3

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Question: `q002. Look at your results for the slopes, and look the results for the average rates of change. What do you notice? In what way then does the graph represent the average rate of change?

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Your solution:

The graph clearly shows that the slope is decreasing at a decreasing rate, which is verified by computing the slopes

confidence rating #$&*:ok

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Given Solution:

`aThe slopes and the rates of change are numerically equal. For example between the second and third points the rise of -20 represents the -20 cm change in depth and the run of 50 represents the 50 seconds required to make this change, so the slope represents the -20 cm / (50 sec) average rate of change over the second time interval. We therefore see that slope represents average rate of change.

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Self-critique (if necessary):n/a

Self-critique Rating: 3

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Question: `q003. To what extent do you think your graph with three points and straight line segments between them accurately depicts the detailed behavior of the water over the 80-second period of observation?

How do you think the actual behavior of the system differs from that of the graph?

How do you think the graph of the actual behavior of the system would differ from that of the graph you made?

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Your solution: I think the graph I drew depicts the average behavior of the water over time. A graph of the actual behavior would have a point at each second at least so between each of those points there would be a line and a slope.

confidence rating #$&*:ok

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Given Solution:

`aThe straight line segments would indicate a constant rate of change of depth. It is fairly clear that as depth decreases, the rate of change of depth will decrease, so that the rate of change of depth will not be constant. The graph will therefore never be straight, but will be a curve which is decreasing at a decreasing rate.

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Self-critique (if necessary):I guess in reality all those little lines would make a curve

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Self-critique Rating:2

@&

Since there are infinitely many points between the given points, there wouldn't be any line segments. The graph would be a smooth curve.

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Question: `q004. From the given information, do you think you can accurately infer the detailed behavior of the water depth over the 80-second period? Do you think you can infer the detailed behavior better than you could the values of the stocks? Why or why not?

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Your solution:

From the given information, you could accurately infer the average behavior of the water. I don’t know much about physics, but it may be possible to accurately infer the detailed behavior because the water’s behavior is governed by the laws of physics. This is more predictable than the behavior of the stocks because there are no laws that govern the behavior of stocks(although that can be predicted).

confidence rating #$&*:ok

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Given Solution:

`aIt will turn out that three data points will be sufficient to infer the detailed behavior, provided the data are accurate. However you might or might not be aware of that at this point, so you could draw either conclusion. However it should be clear that the behavior of the water depth is much more predictable than the behavior of the stock market. We don't know on a given day whether the market will go up or down, but we do know that if we shoot a hole in the bottom of a full bucket the water level will decrease, and we expect that identical holes in identical buckets should result in the same depth vs. clock time behavior.

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Self-critique (if necessary):n/a

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Self-critique Rating:3

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#*&!

&#Good work. See my notes and let me know if you have questions. &#