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Sagot :
Sure, let's complete the table with the given quantities.
From the analysis:
- The [tex]\( N-N \)[/tex] single bond has a bond energy of 167 kJ/mol and a bond length of 145 pm.
- The [tex]\( N=N \)[/tex] double bond has a bond energy of 418 kJ/mol and a bond length of 125 pm.
- The [tex]\( N \equiv N \)[/tex] triple bond has a bond energy of 942 kJ/mol and a bond length of 110 pm.
Now, let's place these values into the table:
[tex]\[ \begin{tabular}{|l|l|l|} \hline & Bond Energy & Bond Length \\ \hline $N - N$ & 167 kJ/mol & 145 pm \\ \hline $N = N$ & 418 kJ/mol & 125 pm \\ \hline $N \equiv N$ & 942 kJ/mol & 110 pm \\ \hline \end{tabular} \][/tex]
So, the table is now complete with correct values for bond energies and bond lengths for single, double, and triple nitrogen bonds.
From the analysis:
- The [tex]\( N-N \)[/tex] single bond has a bond energy of 167 kJ/mol and a bond length of 145 pm.
- The [tex]\( N=N \)[/tex] double bond has a bond energy of 418 kJ/mol and a bond length of 125 pm.
- The [tex]\( N \equiv N \)[/tex] triple bond has a bond energy of 942 kJ/mol and a bond length of 110 pm.
Now, let's place these values into the table:
[tex]\[ \begin{tabular}{|l|l|l|} \hline & Bond Energy & Bond Length \\ \hline $N - N$ & 167 kJ/mol & 145 pm \\ \hline $N = N$ & 418 kJ/mol & 125 pm \\ \hline $N \equiv N$ & 942 kJ/mol & 110 pm \\ \hline \end{tabular} \][/tex]
So, the table is now complete with correct values for bond energies and bond lengths for single, double, and triple nitrogen bonds.
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