assignment 1 calculus

course mth 173

i didnt know that we were required to do the ramdomized problems, and its like three in the morning so if i need to do them tell me and i do them tommorrow

µÓ—‡Ä´y¿ÚÇß»ˆ©øªòéùÀžassignment #001

001. `query 1

Calculus I

02-19-2009

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01:48:58

What were temperature and time for the first, third and fifth data points (express as temp vs clock time ordered pairs)?

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RESPONSE -->

(0,93)(20,60)(40,39)

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01:49:05

** Continue to the next question **

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01:51:04

According to your graph what would be the temperatures at clock times 7, 19 and 31?

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85,56,47

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01:51:09

** Continue to the next question **

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01:52:02

What three points did you use as a basis for your quadratic model (express as ordered pairs)?

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RESPONSE -->

(10,75)(20,60)(60,30)

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01:52:57

** A good choice of points `spreads' the points out rather than using three adjacent points. For example choosing the t = 10, 20, 30 points would not be a good idea here since the resulting model will fit those points perfectly but by the time we get to t = 60 the fit will probably not be good. Using for example t = 10, 30 and 60 would spread the three points out more and the solution would be more likely to fit the data. The solution to this problem by a former student will be outlined in the remaining `answers'.

STUDENT SOLUTION (this student probably used a version different from the one you used; this solution is given here for comparison of the steps)

For my quadratic model, I used the three points

(10, 75)

(20, 60)

(60, 30). **

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01:53:27

What is the first equation you got when you substituted into the form of a quadratic?

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100a+10b+c=75

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01:53:37

** STUDENT SOLUTION CONTINUED: The equation that I got from the first data point (10,75) was 100a + 10b +c = 75.**

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01:53:54

What is the second equation you got when you substituted into the form of a quadratic?

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400a+20b+c=60

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01:54:00

** STUDENT SOLUTION CONTINUED: The equation that I got from my second data point was 400a + 20b + c = 60 **

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01:54:15

What is the third equation you got when you substituted into the form of a quadratic?

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3600a+60b+c=30

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01:54:19

** STUDENT SOLUTION CONTINUED: The equation that I got from my third data point was 3600a + 60b + c = 30. **

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01:56:16

What multiple of which equation did you first add to what multiple of which other equation to eliminate c, and what is the first equation you got when you eliminated c?

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i took the first equation 100a+10b+c=75 and the second equation 400a+20b+c=60 and got -300a-10b=15

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01:56:27

** STUDENT SOLUTION CONTINUED: First, I subtracted the second equation from the third equation in order to eliminate c.

By doing this, I obtained my first new equation

3200a + 40b = -30. **

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01:57:55

To get the second equation what multiple of which equation did you add to what multiple of which other quation, and what is the resulting equation?

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i took the second equation 400a+20b+c=60 and the third equation 3600a+60b+c=30 and got -3200a-40b=30

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01:58:07

** STUDENT SOLUTION CONTINUED: This time, I subtracted the first equation from the third equation in order to again eliminate c.

I obtained my second new equation:

3500a + 50b = -45**

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01:58:54

Which variable did you eliminate from these two equations, and what was its value?

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i eliminatedb and got a=0.015

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01:59:24

** STUDENT SOLUTION CONTINUED: In order to solve for a and b, I decided to eliminate b because of its smaller value. In order to do this, I multiplied the first new equation by -5

-5 ( 3200a + 40b = -30)

and multiplied the second new equation by 4

4 ( 3500a + 50b = -45)

making the values of -200 b and 200 b cancel one another out. The resulting equation is -2000 a = -310. **

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02:00:18

What equation did you get when you substituted this value into one of the 2-variable equations, and what did you get for the other variable?

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i put .015 into -300a-10b=15 and got b=-1.95

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02:00:32

** STUDENT SOLUTION CONTINUED: After eliminating b, I solved a to equal .015

a = .015

I then substituted this value into the equation

3200 (.015) + 40b = -30

and solved to find that b = -1.95. **

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02:00:45

What is the value of c obtained from substituting into one of the original equations?

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c=93

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02:00:51

** STUDENT SOLUTION CONTINUED: By substituting both a and b into the original equations, I found that c = 93 **

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02:01:33

What is the resulting quadratic model?

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RESPONSE -->

.015(t^2)-1.95(t)+93=y

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02:01:40

** STUDENT SOLUTION CONTINUED: Therefore, the quadratic model that I obtained was

y = (.015) x^2 - (1.95)x + 93. **

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02:02:32

What did your quadratic model give you for the first, second and third clock times on your table, and what were your deviations for these clock times?

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93,75,60 they deviated by 2,0,0

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02:02:48

** STUDENT SOLUTION CONTINUED: This model y = (.015) x^2 - (1.95)x + 93 evaluated for clock times 0, 10 and 20 gave me these numbers:

First prediction: 93

Deviation: 2

Then, since I used the next two ordered pairs to make the model, I got back

}the exact numbers with no deviation. So. the next two were

Fourth prediction: 48

Deviation: 1

Fifth prediction: 39

Deviation: 2. **

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02:03:06

What was your average deviation?

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1.375

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02:03:11

** STUDENT SOLUTION CONTINUED: My average deviation was .6 **

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02:03:32

Is there a pattern to your deviations?

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no not really

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02:03:41

** STUDENT SOLUTION CONTINUED: There was no obvious pattern to my deviations.

INSTRUCTOR NOTE: Common patterns include deviations that start positive, go negative in the middle then end up positive again at the end, and deviations that do the opposite, going from negative to positive to negative. **

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02:03:59

Have you studied the steps in the modeling process as presented in Overview, the Flow Model, Summaries of the Modeling Process, and do you completely understand the process?

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i have and yes

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02:04:07

** STUDENT SOLUTION CONTINUED: Yes, I do completely understand the process after studying these outlines and explanations. **

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02:09:30

Have you memorized the steps of the modeling process, and are you gonna remember them forever? Convince me.

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yes. first Obtain and Represent Data then Orient then Observe then Organize Data then Graph then Obtain a Model then Postulate then Select Representative Points then Obtain an equation for each selected point then Solve the system of equations then Substitute parameters then Validate and Use the Model then Graph the model then Quantify the comparison then Pose and answer questions then Do the science: relate the mathematics to the real world.

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02:09:42

** STUDENT SOLUTION CONTINUED: Yes, sir, I have memorized the steps of the modeling process at this point. I also printed out an outline of the steps in order to refresh my memory often, so that I will remember them forever!!!

INSTRUCTOR COMMENT: OK, I'm convinced. **

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02:11:41

Query Completion of Model first problem: Completion of model from your data.Give your data in the form of depth vs. clock time ordered pairs.

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(0,93)(10, 75)(20,60)(30,48)(40,39)(50,33)(60,30)(70, 30)

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02:11:59

** STUDENT SOLUTION: Here are my data which are from the simulated data provided on the website under randomized problems.

(5.3, 63.7)

(10.6. 54.8)

(15.9, 46)

(21.2, 37.7)

(26.5, 32)

(31.8, 26.6). **

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02:12:39

What three points on your graph did you use as a basis for your model?

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10,20,60

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02:12:45

** STUDENT SOLUTION CONTINUED: As the basis for my graph, I used

( 5.3, 63.7)

(15.9, 46)

(26.5, 32)**

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02:12:57

Give the first of your three equations.

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what

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