Calculus

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course Mth 279

6/8 8:19 pm

005. Calculus 

 

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Question: `q001. There are 12 questions in this document.

 

The graph of a certain function is a smooth curve passing through the points (3, 5), (7, 17) and (10, 29).

 

Between which two points do you think the graph is steeper, on the average?

 

Why do we say 'on the average'?

 

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Your solution:

 On the average, the graph is steeper between (7,17) and (10, 29). We say 'on the average' because without knowing the equation, we have no idea how the graph behaves between two points. However, if we are given two points, we can determine the average slope because we know where the graph begins and ends in that segment.

This is similar to the way that speeding tickets can be given at toll booths. When you enter a turnpike, you get a ticket that is stamped with the time. When you exit the road, the teller at the booth can look at the time stamp where you started and the time you arrive at the booth, and (possibly) determine if you were speeding.

If the speed limit of the entire road was 50 mph, and the road is 50 miles long, you should arrive at the end tollbooth no sooner than an hour after you entered the road. If you were going a constant 60 mph, you would arrive at the booth in 50 minutes.

However, it is possible that you could arrive at the booth in 1 hour but still have been going over the speed limit. If you were driving 100 mph for 25 miles, and then stopped to fix a flat tire for 30 minutes, you could continue on your way at 100 mph without getting to the exit too fast. Your average speed would be 50 mph.

 

confidence rating #$&*:3

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Given Solution:

`aSlope = rise / run.

 

Between points (7, 17) and (10, 29) we get rise / run = (29 - 17) / (10 - 7) =12 / 3 = 4.

 

The slope between points (3, 5) and (7, 17) is 3 / 1. (17 - 5) / (7 -3) = 12 / 4 = 3.

 

The segment with slope 4 is the steeper. The graph being a smooth curve, slopes may vary from point to point. The slope obtained over the interval is a specific type of average of the slopes of all points between the endpoints.

 

2. Answer without using a calculator: As x takes the values 2.1, 2.01, 2.001 and 2.0001, what values are taken by the expression 1 / (x - 2)?

 

1. As the process continues, with x getting closer and closer to 2, what happens to the values of 1 / (x-2)?

 

2. Will the value ever exceed a billion? Will it ever exceed one trillion billions?

 

3. Will it ever exceed the number of particles in the known universe?

 

4. Is there any number it will never exceed?

 

5. What does the graph of y = 1 / (x-2) look like in the vicinity of x = 2?

 

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Your solution:

 1. The values of 1/(x-2) get larger.

2.Yes the value will exceed a billion and one trillion billion.

3....yes?

4.infinity?

5.At x = 2, the equation becomes 1/0. You can't divide by 0. On a graph there will be hole where x = 2. This means that the graph is continuous everywhere except for where x=2

 

 

confidence rating #$&*:1

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Given Solution:

`aFor x = 2.1, 2.01, 2.001, 2.0001 we see that x -2 = .1, .01, .001, .0001. Thus 1/(x -2) takes respective values 10, 100, 1000, 10,000.

 

It is important to note that x is changing by smaller and smaller increments as it approaches 2, while the value of the function is changing by greater and greater amounts.

 

As x gets closer in closer to 2, it will reach the values 2.00001, 2.0000001, etc.. Since we can put as many zeros as we want in .000...001 the reciprocal 100...000 can be as large as we desire. Given any number, we can exceed it.

 

Note that the function is simply not defined for x = 2. We cannot divide 1 by 0 (try counting to 1 by 0's..You never get anywhere. It can't be done. You can count to 1 by .1's--.1, .2, .3, ..., .9, 1. You get 10. You can do similar thing for .01, .001, etc., but you just can't do it for 0).

 

As x approaches 2 the graph approaches the vertical line x = 2; the graph itself is never vertical. That is, the graph will have a vertical asymptote at the line x = 2. As x approaches 2, therefore, 1 / (x-2) will exceed all bounds.

 

Note that if x approaches 2 through the values 1.9, 1.99, ..., the function gives us -10, -100, etc.. So we can see that on one side of x = 2 the graph will approach +infinity, on the other it will be negative and approach -infinity.

 

 

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Self-critique (if necessary):

 I'm not entirely sure what you mean by ""1 / (x-2) will exceed all bounds."" I thought that the graph had a 'hole' wherever the equation was undefined. Because you're saying that there is a vertical asymptote at x=2, does this mean the graph actually is continuous? ???

 

 

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Self-critique Rating:1

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Question: `q003. One straight line segment connects the points (3,5) and (7,9) while another connects the points (10,2) and (50,4). From each of the four points a line segment is drawn directly down to the x axis, forming two trapezoids. Which trapezoid has the greater area? Try to justify your answer with something more precise than, for example, 'from a sketch I can see that this one is much bigger so it must have the greater area'.

 

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Your solution:

 

 I'm not sure how this would be solved without drawing out the graph.

My initial guess was that the second set of points would have the biggest area simply because the points seem farther apart from each other. However, the first set of points has a larger slope (the first two points have a slope of 4, the second two points have a slope of 1/20). This would mean that the derivative of the first graph would be bigger.

I think the first two points make a larger area.

 

 

confidence rating #$&*:0

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Given Solution:

`aYour sketch should show that while the first trapezoid averages a little more than double the altitude of the second, the second is clearly much more than twice as wide and hence has the greater area.

 

To justify this a little more precisely, the first trapezoid, which runs from x = 3 to x = 7, is 4 units wide while the second runs from x = 10 and to x = 50 and hence has a width of 40 units. The altitudes of the first trapezoid are 5 and 9,so the average altitude of the first is 7. The average altitude of the second is the average of the altitudes 2 and 4, or 3. So the first trapezoid is over twice as high, on the average, as the first. However the second is 10 times as wide, so the second trapezoid must have the greater area.

 

This is all the reasoning we need to answer the question. We could of course multiply average altitude by width for each trapezoid, obtaining area 7 * 4 = 28 for the first and 3 * 40 = 120 for the second. However if all we need to know is which trapezoid has a greater area, we need not bother with this step.

 

 

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Self-critique (if necessary):

 I'm not really sure how you knew how to do that. Before seeing the solution I would not have been able to solve without making a graph.

Did you graph it first and then, based off of knowing that the second one is bigger, solve using ratios???

Is there another way you can solve this? Maybe using calculus???

 

@&

I would always recommend making a graph first. In general sketches are nearly always valuable.

Once you have a sketch you can use common sense. The second graph is 10 times as wide as the first, but the first is clearly less than 10 times as high as the second.

*@

 

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Self-critique Rating:0

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Question: `q004. If f(x) = x^2 (meaning 'x raised to the power 2') then which is steeper, the line segment connecting the x = 2 and x = 5 points on the graph of f(x), or the line segment connecting the x = -1 and x = 7 points on the same graph? Explain the basis of your reasoning.

 

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Your solution:

 The line connecting (-1, 1) and (7, 49) is steeper. Using the slope formula (rise/run) you can calculate which has the largest slope.

 

 

confidence rating #$&*:3

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Given Solution:

`aThe line segment connecting x = 2 and the x = 5 points is steeper: Since f(x) = x^2, x = 2 gives y = 4 and x = 5 gives y = 25. The slope between the points is rise / run = (25 - 4) / (5 - 2) = 21 / 3 = 7.

 

The line segment connecting the x = -1 point (-1,1) and the x = 7 point (7,49) has a slope of (49 - 1) / (7 - -1) = 48 / 8 = 6.

 

The slope of the first segment is greater.

 

 

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Self-critique (if necessary):

 I did not calculate the second slope correctly, although my logic was sound.

I also didn't show my work. I messed up my signs and caclulated (49+1)/(7-1) = 8.3333

 

 

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Self-critique Rating:3

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Question: `q005. Suppose that every week of the current millennium you go to the jeweler and obtain a certain number of grams of pure gold, which you then place in an old sock and bury in your backyard. Assume that buried gold lasts a long, long time ( this is so), that the the gold remains undisturbed (maybe, maybe not so), that no other source adds gold to your backyard (probably so), and that there was no gold in your yard before..

 

1. If you construct a graph of y = the number of grams of gold in your backyard vs. t = the number of weeks since Jan. 1, 2000, with the y axis pointing up and the t axis pointing to the right, will the points on your graph lie on a level straight line, a rising straight line, a falling straight line, a line which rises faster and faster, a line which rises but more and more slowly, a line which falls faster and faster, or a line which falls but more and more slowly?

 

2. Answer the same question assuming that every week you bury 1 more gram than you did the previous week.

 

3. Answer the same question assuming that every week you bury half the amount you did the previous week.

 

 

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Your solution:

 1. The graph will be a rising straight line. The graph will be increasing at a steady rate (because you get the same amount of gold each week).

2.The graph will be a curve that increases at an increasing rate.

3.the graph would be a curve that decreases at a decreasing rate.

 

confidence rating #$&*:3

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Given Solution:

`a1. If it's the same amount each week it would be a straight line.

 

2. Buying gold every week, the amount of gold will always increase. Since you buy more each week the rate of increase will keep increasing. So the graph will increase, and at an increasing rate.

 

3. Buying gold every week, the amount of gold won't ever decrease. Since you buy less each week the rate of increase will just keep falling. So the graph will increase, but at a decreasing rate. This graph will in fact approach a horizontal asymptote, since we have a geometric progression which implies an exponential function.

 

 

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Self-critique (if necessary):

I did not think about the third one correctly. I forgot that y is the gold in the ground, not the gold you buy each week.  

 

 

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Self-critique Rating:3

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Question: `q006. Suppose that every week you go to the jeweler and obtain a certain number of grams of pure gold, which you then place in an old sock and bury in your backyard. Assume that buried gold lasts a long, long time, that the the gold remains undisturbed, and that no other source adds gold to your backyard.

 

1. If you graph the rate at which gold is accumulating from week to week vs. the number of weeks since Jan 1, 2000, will the points on your graph lie on a level straight line, a rising straight line, a falling straight line, a line which rises faster and faster, a line which rises but more and more slowly, a line which falls faster and faster, or a line which falls but more and more slowly?

 

2. Answer the same question assuming that every week you bury 1 more gram than you did the previous week.

 

3. Answer the same question assuming that every week you bury half the amount you did the previous week.

 

 

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Your solution:

 Because you're asking to graph the RATE at which gold accumulates vs. time, for each of these situations, you are taking the derivative of the previous answers.

1.The graph would be a flat straight line.

2.The graph would be a straight line with a positive slope

3. the graph would be a straight line with a negative slope.

 

 

confidence rating #$&*:2

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Given Solution:

`aThis set of questions is different from the preceding set. This question now asks about a graph of rate vs. time, whereas the last was about the graph of quantity vs. time.

 

Question 1: This question concerns the graph of the rate at which gold accumulates, which in this case, since you buy the same amount eact week, is constant. The graph would be a horizontal straight line.

 

Question 2: Each week you buy one more gram than the week before, so the rate goes up each week by 1 gram per week. You thus get a risingstraight line because the increase in the rate is the same from one week to the next.

 

Question 3. Since half the previous amount will be half of a declining amount, the rate will decrease while remaining positive, so the graph remains positive as it decreases more and more slowly. The rate approaches but never reaches zero.

 

STUDENT COMMENT:  I feel like I am having trouble visualizing these graphs because every time for the first one I picture an increasing straight line

INSTRUCTOR RESPONSE:  The first graph depicts the amount of gold you have in your back yard. The second depicts the rate at which the gold is accumulating, which is related to, but certainly not the same as, the amount of gold.

For example, as long as gold is being added to the back yard, the amount will be increasing (though not necessarily on a straight line). However if less and less gold is being added every year, the rate will be decreasing (perhaps along a straight line, perhaps not).

 

FREQUENT STUDENT RESPONSE

 

This is the same as the problem before it.  No self-critique is required.

 

INSTRUCTOR RESPONSE

 

This question is very different that the preceding, and in a very significant and important way. You should have

self-critiqued; you should go back and insert a self-critique on this very important question and indicate your insertion by

preceding it with ####.  The extra effort will be more than worth your trouble.

 

These two problems go to the heart of the Fundamental Theorem of Calculus, which is the heart of this course, and the extra effort will be well worth it in the long run.  The same is true of the last question in this document.

 

STUDENT COMMENT

 

Aha! Well you had me tricked. I apparently misread the question. Please don t do this on a test!

INSTRUCTOR RESPONSE

 

I don't usually try to trick people, and wasn't really trying to do so here, but I was aware when writing these two problems that most students would be tricked.

My real goal: The distinction between these two problems is key to understanding what calculus is all about. I want to at least draw your attention to it early in the course.

 

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Self-critique (if necessary):OK

 

 I looked at this for close to 5 minutes before realizing what you were asking. I almost thought you were asking the same question or that I had somehow copied and pasted the document wrong

 

 

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Self-critique Rating:OK

@&

Over half the students who show signs of actually having thought about the problem, as opposed to repeating the given solution they aren't supposed to have used, never see the difference. So 5 minutes isn't bad at all.

*@

 

 

``q007. If the depth of water in a container is given, in centimeters, by 100 - 2 t + .01 t^2, where t is clock time in seconds, then what are the depths at clock times t = 30, t = 40 and t = 60? On the average is depth changing more rapidly during the first time interval or the second?

 

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Your solution:

 t y

30 130

40 180

60 340

The difference between the first time interval is 50 cm, and the difference between the second time interval is 160. On the average, the depth is changing more rapidly during the second time interval.

 

 

 #### fixed calcuations

t depth rate

30 49

40 36 1.3

60 16 1

.01(30)^2 - 2(30) +100 = .01(900) + 40 = 49

.01(40)^2 - 2(40) + 100 = .01(1600) + 20 = 36

.01(60)^2 - 2(60) + 100 = .01(3600) - 20 = 16

 

Slope

(36 - 49)/(40-30) = -1.3

(16 - 36)/(60 - 40) = -1

However, because we are only interested in the magnitude of the rate of change, the rate of change is larger in the first interval than the second.

 

 

confidence rating #$&*:2

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Given Solution:

`aAt t = 30 we get depth = 100 - 2 t + .01 t^2 = 100 - 2 * 30 + .01 * 30^2 = 49.

 

At t = 40 we get depth = 100 - 2 t + .01 t^2 = 100 - 2 * 40 + .01 * 40^2 = 36.

 

At t = 60 we get depth = 100 - 2 t + .01 t^2 = 100 - 2 * 60 + .01 * 60^2 = 16.

 

49 cm - 36 cm = 13 cm change in 10 sec or 1.3 cm/s on the average.

 

36 cm - 16 cm = 20 cm change in 20 sec or 1.0 cm/s on the average.

 

 

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Self-critique (if necessary):

 

 I read the problem wrong. I thought the equation was depth = .1t^2 - 2t +100. I also assumed that the two time intervals were the same length.

Should I be showing my work even though it does not say to do so???

I clearly am not very good at basic math. Am I allowed to use a calculator for these problems???

I added the correct calculations above (denoted with ####)

 

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Self-critique Rating:3

@&

The calculator is appropriate for basic arithmetic, though you should make the effort to become less calculator-dependent for simple calculations.

You should always show at least an outline of how you get your results.

*@

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Question: `q008. If the rate at which water descends in a container is given, in cm/s, by 10 - .1 t, where t is clock time in seconds, then at what rate is water descending when t = 10, and at what rate is it descending when t = 20? How much would you therefore expect the water level to change during this 10-second interval?

 

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Your solution:

 t y

10 9

20 8

-.1(10)+10 = 9

-.1(20) + 10 = 8

I am unsure about how to solve for how much the water would change by. I originally thought that I could take the interval of the given equation. However, I don't know how much water was in the tank to begin with.

But the integral is the same as the area under the graph. I can solve for the amount of water under the graph by using geometry.

By drawing lines from (10,9) and (20,8) down to the x axis, then drawing a line connecting the two points, I made a trapezoid.

Area = (b1+b2)/2*h

Area = (20+10)/2*1 = 15 cm

The water level will change by 15 cm from t = 10 to t = 20

 

 

confidence rating #$&*:2

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Given Solution:

`aAt t = 10 sec the rate function gives us 10 - .1 * 10 = 10 - 1 = 9, meaning a rate of 9 cm / sec.

 

At t = 20 sec the rate function gives us 10 - .1 * 20 = 10 - 2 = 8, meaning a rate of 8 cm / sec.

 

The rate never goes below 8 cm/s, so in 10 sec the change wouldn't be less than 80 cm.

 

The rate never goes above 9 cm/s, so in 10 sec the change wouldn't be greater than 90 cm.

 

Any answer that isn't between 80 cm and 90 cm doesn't fit the given conditions..

 

The rate change is a linear function of t. Therefore the average rate is the average of the two rates, or 8.5 cm/s.

 

The average of the rates is 8.5 cm/sec. In 10 sec that would imply a change of 85 cm.

 

STUDENT RESPONSES

 

The following, or some variation on them, are very common in student comments.  They are both very good questions.  Because of the importance of the required to answer this question correctly, the instructor will typically request for a revision in response to either student response:

• I don't understand how the answer isn't 1 cm/s.  That's the difference between 8 cm/s and 9 cm/s.

• I don't understand how the answer isn't 8.5 cm/s.  That's the average of the 8 cm/s and the 9 cm/s.

 

INSTRUCTOR RESPONSE

 

A self-critique should include a full statement of what you do and do not understand about the given solution.  A phrase-by-phrase analysis of the solution is not unreasonable (and would be a good idea on this very important question), though it wouldn't be necessary in most situations.

 

An important part of any self-critique is a good question, and you have asked one.  However a self-critique should if possible go further.  I'm asking that you go back and insert a self-critique on this very important question and indicate your insertion by preceding it with ####, before submitting it.  The extra effort will be more than worth your trouble.

 

This problem, along with questions 5 and 6 of this document, go to the heart of the Fundamental Theorem of Calculus, which is the heart of this course, and the extra effort will be well worth it in the long run.

 

You should review the instructions for self-critique, provided at the link given at the beginning of this document.

 

STUDENT COMMENT

 

The question is worded very confusingly. I took a stab and answered correctly. When answering, """"How much would you

therefore expect the water level to change during this 10-second interval?"""" It is hard to tell whether you are asking for

what is the expected change in rate during this interval and what is the changing """"water level."""" But now, after looking at

it, with your comments, it is clearer that I should be looking for the later. Thanks!

INSTRUCTOR RESPONSE

 

'Water level' is clearly not a rate. I don't think there's any ambiguity in what's being asked in the stated question.

The intent is to draw the very important distinction between the rate at which a quantity changes, and the change in the quantity.

It seems clear that as a result of this question you understand this and will be more likely to make such distinctions in your subsequent work.

 

This distinction is at the heart of the calculus and its applications.  It is in fact the distinction between a derivative and an integral.

 

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Self-critique (if necessary):

 I'm not entirely sure what's going on here. Don’t you need to solve for an integral somewhere? If the equation given is the rate equation and you're asked how much the water level changes, don't you need to solve for how much water is at both points? ???

Also, you stated above ""

The rate never goes below 8 cm/s, so in 10 sec the change wouldn't be less than 80 cm.

 

The rate never goes above 9 cm/s, so in 10 sec the change wouldn't be greater than 90 cm. ""

How do we know the rate never goes below 8 and not above 9? ???

 

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Self-critique Rating:0

@&

The rate changes linearly so you don't need to set up an integral, though of course you could.

*@

@&

The function 10 - .1 t changes linearly from 8 to 9 on this interval.

*@

 

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Question: `q009. Sketch the line segment connecting the points (2, -4) and (6, 4), and the line segment connecting the points (2, 4) and (6, 1). The first of these lines if the graph of the function f(x), the second is the graph of the function g(x). Both functions are defined on the interval 2 <= x <= 6.

 

Let h(x) be the function whose value at x is the product of the values of these two functions. For example, when x = 2 the value of the first function is -4 and the value of the second is 4, so when x = 2 the value of h(x) is -4 * 4 = -16.

 

Answer the following based just on the characteristics of the graphs you have sketched.  (e.g., you could answer the following questions by first finding the formulas for f(x) and g(x), then combining them to get a formula for h(x); that's a good skill but that is not the intent of the present set of questions). 

 

What is the value of h(x) when x = 6?

 

Is the value of h(x) ever greater than its value at x = 6?

 

What is your best description of the graph of h(x)?

 

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Your solution:

 The value of h(6) = 4.

 h(6) = f(6)*g(6) = 4*1 = 4

I'm not sure how you would determine the max value of h(x) without solving for f(x) and g(x).

Solving for f(x)

Slope = (4+4)/(6-2) = 2. f(x) = 2x +C

Plugging in x and y values to find y intercept, C. -4 = 2(2) +C

C = -8. f(x) = 2x-8

Solving for g(x)

Slope = (1-4)/(6-2) = -0.75

4 = (-.75)(2) + C

C = 5.5

g(x) = -.75x +5.5

Solving for h(x)

h(x)= f(x)g(x) = (2x-8)(-.75x+5.5) = -1.5x^2 +17x -44

To find where h(x) has a maximum point, take the derivative and plug 0 in for x

h'(x) = 3x+17

h'(0) = 17

Because this point lies outside the boundaries of the equations, we can discard that answer. Although I'm not really sure how to actually solve for the max point.

I think 6 is the maximum value

My description of h(x) is a downwards facing parabola (the coefficient of x^2 is negative) with the max point at x = 17

 

 

confidence rating #$&*:0

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Is there a reason why there aren't answers for some solutions???

 

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Question: `q010. A straight line segment connects the points (3,5) and (7,9), while the points (3, 9) and (7, 5) are connected by a curve which decreases at an increasing rate. From each of the four points a line segment is drawn directly down to the x axis, so that the first line segment is the top of a trapezoid and the second a similar to a trapezoid but with a curved 'top'. Which trapezoid has the greater area?

 

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Your solution:

 My best guess is that the curved top trapezoid has the greatest area because it is taller than the other trapezoid for more x than the other trapezoid is taller. Although I'm not sure how to actually solve for this answer.

 

 

confidence rating #$&*:0

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Question: `q011. Describe the graph of the position of a car vs. clock time, given each of the following conditions:

• The car coasts down a straight incline, gaining the same amount of speed every second

• The car coasts down a hill which gets steeper and steeper, gaining more speed every second

• The car coasts down a straight incline, but due to increasing air resistance gaining less speed with every passing second

 

Describe the graph of the rate of change of the position of a car vs. clock time, given each of the above conditions.

 

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Your solution:

 

 1. The graph will be the right half of an upwards facing parabola (increasing at an increasing rate)

2. The graph will be the right half of an upwards facing parabola. However it will have a higher coefficient in front of x^2 than the previous graph. (increasing at an increasing rate)

3. The graph will look like a squareroot graph (concave down, increasing at a decreasing rate)

 

 

confidence rating #$&*:2

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Question: `q012. If at t = 100 seconds water is flowing out of a container at the rate of 1.4 liters / second, and at t = 150 second the rate is 1.0 liters / second, then what is your best estimate of how much water flowed out during the 50-second interval?

 

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Your solution:

 This is like the one I don't get (question 8). Based off of the answer you gave, I take the average of the two rates.

(1.4-1)/50 = 0.008 liters

 

 

confidence rating #$&*: 0

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Self-critique Rating: Would you mind explaining this one as well? I'm still unsure of why you have to take the average instead of the integral. ???

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Self-critique (if necessary):

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Self-critique rating:

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Self-critique (if necessary):

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Self-critique rating:

#*&!

@&

Good questions, and good attention to details.

*@