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A common example showing that a subring of a Noetherian ring is not necessarily Noetherian is to take a polynomial ring over a field $k$ in infinitely many indeterminates, $k[x_1,x_2,\dots]$. The quotient field is then obviously Noetherian, but the subring $k[x_1,x_2,\dots]$ is not since there is an infinite ascending chain of ideals which never stabilizes.

Is there an instance of a finitely generated Noetherian ring over some ground ring $R$, that has an intermediate ring which is not finitely generated over $R$, and hence not Noetherian either?

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    This is answered by [Mariano's answer here](http://math.stackexchange.com/questions/105164/are-intermediate-rings-of-finite-ring-extensions-also-finitely-generated/105218#105218). That question did not have a Noetherian condition, but it's clearly satisfied in the example.2012-02-05
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    Oh yeah, Hilbert's basis theorem shows the Noetherian condition. Should I delete this somehow?2012-02-05
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    I actually don't know what the interface for asking questions is like, but if you want to then that seems fine: no one has written an answer, or anything.2012-02-05

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