Update status of Theorem 1.10-11.
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@ -2578,7 +2578,7 @@ The function $f$ is \nameref{sec:def-integrable} on $[a, b]$ if and only if
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\chapter{The Area of an Ordinate Set Expressed as an Interval}%
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\chapter{The Area of an Ordinate Set Expressed as an Interval}%
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\label{chap:area-ordinate-set-expressed-interval}
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\label{chap:area-ordinate-set-expressed-interval}
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\section{Theorem 1.10}%
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\section{\partial{Theorem 1.10}}%
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\label{sec:theorem-1.10}
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\label{sec:theorem-1.10}
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Let $f$ be a nonnegative function, \nameref{sec:def-integrable} on an interval
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Let $f$ be a nonnegative function, \nameref{sec:def-integrable} on an interval
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@ -2601,7 +2601,7 @@ Then $Q$ is measurable and its area is equal to the integral
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\end{proof}
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\end{proof}
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\section{Theorem 1.11}%
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\section{\partial{Theorem 1.11}}%
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\label{sec:theorem-1.11}
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\label{sec:theorem-1.11}
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Let $f$ be a nonnegative function, integrable on an interval $[a, b]$.
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Let $f$ be a nonnegative function, integrable on an interval $[a, b]$.
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