Triple integral for cone in cylindrical coordinates.

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Homework Help Overview

The discussion revolves around finding the limits of integration for the volume of an upside-down cone defined in cylindrical coordinates. The cone has its vertex at the origin and its base at z=1/sqrt(2), with an angle of pi/2 at the vertex.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants discuss the limits of integration for the triple integral, specifically questioning the height of the cone and the discrepancy between their calculations and the book's solution. There is a focus on the inner integral limits for z, with some participants asserting their limits as r

Discussion Status

Some participants express confidence in their limits of integration, while others suggest that the book's solution may be incorrect. There is an indication that further verification may be sought from a professor.

Contextual Notes

Participants are working under the constraints of homework rules and are attempting to reconcile their understanding with the provided textbook solution. There is an acknowledgment of potential formatting issues due to the medium of communication.

Tseliottt
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Homework Statement


Find limits of integration for volume of upside down cone with vertex on origin and base at z=1/sqrt(2). Angle at vertex is pi/2. Do this in cylindrical coordinates.

Homework Equations


None.


The Attempt at a Solution


My inner integral conflicts with the books solution. So in my triple integral, the outsides are right: 0<theta<2pi ; 0<r<1/sqrt(2)

But my inner integral is r<z<1/sqrt(2) and the book says its r<z<1.

Where does this 1 come from? I thought the max height was 1/sqrt(2)?

Sorry if my formats messed up. Typing this on my phone.
 
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There is a good explanation here

http://www.math24.net/calculation-of-volumes-using-triple-integrals.html
 
Tseliottt said:

Homework Statement


Find limits of integration for volume of upside down cone with vertex on origin and base at z=1/sqrt(2). Angle at vertex is pi/2. Do this in cylindrical coordinates.

Homework Equations


None.

The Attempt at a Solution


My inner integral conflicts with the books solution. So in my triple integral, the outsides are right: 0<theta<2pi ; 0<r<1/sqrt(2)

But my inner integral is r<z<1/sqrt(2) and the book says its r<z<1.

Where does this 1 come from? I thought the max height was 1/sqrt(2)?

Sorry if my formats messed up. Typing this on my phone.
It looks to me like you did the limits of integration correctly.
 
Yea. After looking at that link, I think the books solution is wrong. Thanks. I spent like an hour trying to figure out what I did wrong. Ill ask my professor to make sure.
 
I've followed my link above and I think your limits for z are r < z < 1/√2

My triple integral is

int (0 to 1/√2) r dr int (0 to 2∏) dθ int (r to 1/√2) dz
 

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