Double Integral with Limits: Solving for (x+2y)^-(1/2)

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Homework Help Overview

The problem involves calculating a double integral of the function (x+2y)-(1/2) over a specified region R, defined by the inequalities x-2y ≤ 1 and x ≥ y2 + 1. Participants are exploring how to determine the limits of integration based on these constraints.

Discussion Character

  • Exploratory, Problem interpretation, Assumption checking

Approaches and Questions Raised

  • Participants discuss the necessity of graphing the region R to better understand the limits of integration. There are attempts to define the limits for both x and y based on the inequalities provided. Some participants question the clarity of the limits and suggest different interpretations of the region.

Discussion Status

There is an active exploration of the limits of integration, with various suggestions on how to set them based on the defined region. Some participants have provided insights into the intersections of the curves that define the region, while others have noted the potential for different approaches to the integration order. The discussion reflects a collaborative effort to clarify the setup without reaching a definitive conclusion.

Contextual Notes

Participants are working under the constraints of the problem as stated, with specific inequalities guiding the integration limits. There is an emphasis on understanding the graphical representation of the region to inform the limits, and some participants express uncertainty about the clarity of the limits based on the given constraints.

santais
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Homework Statement



Calculate the integral:

∫ ∫_R (x+2y)^{-(1/2)} dxdy

Where R is defined as points (x,y) which satisfy:

x-2y ≤ 1 and x ≥ y2 + 1

Homework Equations



So basically I'm completely stuck on this exerzice. As far as I can see, you could make the x limit go from y2 +1 to infinity. However, looking at what I have to integrate, and the possible solutions, it doesn't seem to be a possible answer.

Also the y limits seems quite unclear how to determine.

I hope that some of you out there could give me a little push, to get in the right direction with this assigment :)
 
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Hi santais

You should always plot the graph to understand the region R, defined by the two given equations. See the attached graph.

Now that you can see the required region of integration, describe it, so you can define the limits with respect to x and y:
For ##y## fixed, ##x## varies from ##x = y^2 + 1## to ##x = 2y +1##
y varies from y = 0 to y = 2
 

Attachments

  • region.png
    region.png
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Last edited:
Try drawing out the region defined, showing the area you're integrating over first. Also integrate x as a function of y for your limits
 
So the limits would be somehow:

1 <= x <= 5 and (x-1)/2 <= y <= Sqrt[x-1]
 
Why "somehow"? Your constraints, x- 2y\le 1 which is equivalent to y\ge (x-1)/2, and x\ge y^2+ 1, mean that the region of integration lies between those two graphs as shown by sharks. They intersect when x= 2y+ 1= y^2+ 1 which reduces to y^2- 2y= y(y- 2)= 0 so y= 0 or y= 2. When y= 0, x= 2(0)+ 1= 1 and when y= 2, x= 2(2)+ 1= 5. The points of intersection of x= 2y+ 1 and x= y^2+ 1 are (1, 0) and (5, 2). To cover that we can take x ranging from 0 to 5. For each x, y ranges from the line, y= (x- 1)/2, to the parabola, y= \sqrt{x- 1} (positive branch since, from the graph, we want the point to be above the x-axis).
\int_{x=1}^5\int_{y= (x-1)/2}^\sqrt{x-1} f(x,y)dydx

But, especially because we are given the parabola in y^2, we could also do the integration with respect to y second. y ranges from 0 to 2 and, for each y, x ranges from the parabola, x= y^2+ 1, on the left, to the line, x= 2y+ 1, on the right. That is, we could also do the integral as
\int_{y= 0}^2\int_{x=y^2+1}^{2y+1} f(x,y) dxdy
 
ARh okay. It makes so much more sense now :) And thanks for the fast replies.

Solved the assignment now. At least it corresponds to the answer I get in Mathematica, so I'll stick with this answer :)

Thanks for the replies!
 

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