93-- Considering the structure of the given molecule, how many of the following statements are correct? $(H = 1,\ C = 12,\ N = 14,\ O = 16,\ Cl = 35.5\ :\ \text{g.mol}^{-1})$ [Figure: A molecule containing two chlorine atoms on a benzene ring, an NH group connecting to another benzene ring, and a $-$COOH group]
The number of $\text{C}-\text{H}$ bonds is 5 times the number of $\text{C}-\text{N}$ bonds.
Approximately, 15 percent of the molar mass of the compound is contributed by oxygen.
The difference between the number of lone pairs between atoms and the number of $\text{C}-\text{H}$ bonds equals the number of chlorine atoms.
The number of non-bonding electron pairs on atoms is 2.75 times the number of carbon atoms that have an oxidation number of $+1$.
(1) 4
(2) 3
(3) 2
(4) 1
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\textbf{93--} Considering the structure of the given molecule, how many of the following statements are correct?\\
$(H = 1,\ C = 12,\ N = 14,\ O = 16,\ Cl = 35.5\ :\ \text{g.mol}^{-1})$
\textit{[Figure: A molecule containing two chlorine atoms on a benzene ring, an NH group connecting to another benzene ring, and a $-$COOH group]}
\begin{itemize}
\item The number of $\text{C}-\text{H}$ bonds is 5 times the number of $\text{C}-\text{N}$ bonds.
\item Approximately, 15 percent of the molar mass of the compound is contributed by oxygen.
\item The difference between the number of lone pairs between atoms and the number of $\text{C}-\text{H}$ bonds equals the number of chlorine atoms.
\item The number of non-bonding electron pairs on atoms is 2.75 times the number of carbon atoms that have an oxidation number of $+1$.
\end{itemize}
\begin{tabular}{cccc}
(1) 4 & (2) 3 & (3) 2 & (4) 1
\end{tabular}
\begin{center}
\textit{Calculation Space}
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