Volumes ?? (1 Viewer)

Currybear

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Hey,


I have a test on volumes coming up and i dont Fully understand cyndrical shells, especially finding the radius, tried doing 2007 3c, and i dont quite see how the radius of the shell is x, can someone please explain??

Screen Shot 2013-06-18 at 10.51.49 PM.png
 

Makematics

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so you draw in a strip of delta x and you can assign an arbitrary point (x,y) on the curve at the top left hand corner of the (almost) rectangular strip. from there, it should be clear that the inner radius of the shell will be x, and the outer radius will be x+deltax.
 

braintic

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so the radius isn't measured from the axis of rotation?
Yes of course. A typical slice of area is drawn parallel to the axis of rotation (the y-axis). The distance from the y-axis to this slice is x, and after rotating this slice it becomes the radius of the shell.

Remember: For slicing, draw your typical slice perpendicular to the axis of rotation; for shells draw it parallel to the axis of rotation.
 
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Carrotsticks

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so the radius isn't measured from the axis of rotation?
Hopefully this clears something up. We are working with a 3D object, so there is no single 'radius' for an open cylinder (since it has some thickness delta x). There are two radii being X and X+deltaX.

If you are using the 'unfold the shell to form a thin rectangular prism' method, then you will need a single 'radius. However, you may assume this radius to be X instead of delta X because we are eventually allowing delta X to approach zero, so for ease of computations (without any error in calculation), we may assume that the 'radius' is simply X.

But if you are doing it the 'Find area of annulus, multiply by height' method ie: pi*(R^2-r^2)h, then your R would be x+deltax and r would be x, where R > r.

 
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braintic

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Hopefully this clears something up. We are working with a 3D object, so there is no single 'radius' for an open cylinder (since it has some thickness delta x). There are two radii being X and X+deltaX.

If you are using the 'unfold the shell to form a thin rectangular prism' method, then you will need a single 'radius. However, you may assume this radius to be X instead of delta X because we are eventually allowing delta X to approach zero, so for ease of computations (without any error in calculation), we may assume that the 'radius' is simply X.

But if you are doing it the 'Find area of annulus, multiply by height' method ie: pi*(R^2-r^2)h, then your R would be x+deltax and r would be x, where R > r.

Hi Carrotsticks,
I could be wrong, but based on his question I think Currybear's problem was not knowing the orientation of the slice - ie. parallel to the y-axis.
 

Carrotsticks

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Hi Carrotsticks,
I could be wrong, but based on his question I think Currybear's problem was not knowing the orientation of the slice - ie. parallel to the y-axis.
I am not 100% sure, but I'll leave it until Currybear responds.
 

Currybear

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so for all cyndrical shells rotated about the y axis or an x= something, the radius is always x?
 

Currybear

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also, how do you know whether to use cyndrical shells or small cylinders
 

Makematics

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so for all cyndrical shells rotated about the y axis or an x= something, the radius is always x?
i think it is true, but i wouldn't recommend rote learning volumes. there isn't always one method that will suit all the cylindrical shells questions. you have to be able to adapt your thinking to deal with harder questions involving. for example my teacher gave us a question in which y=x was the axis of rotation.
 

braintic

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and rotating around the line y=a, gives radius y-a?
The radius is actually |y-a|, but as you will be squaring the radius you can omit the absolute value.

However if you use the method of unrolling the shell to form a rectangular prism of area 2.pi.r.h, the radius is not squared, so you have to be careful about the direction of the subtraction when finding r.
 

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