Sure! Let's go through the table and fill in the chemical formulas for each of the binary molecular compounds listed. Here is the detailed, step-by-step solution:
1. Dichlorine Heptoxide:
- The name "dichlorine heptoxide" can be broken down into its components: "di-" indicates two chlorine atoms, and "hept-" indicates seven oxygen atoms.
- Therefore, the chemical formula for dichlorine heptoxide is [tex]\( \text{Cl}_2\text{O}_7 \)[/tex].
2. Carbon Dioxide:
- The name "carbon dioxide" consists of one carbon atom and "di-" which indicates two oxygen atoms.
- Therefore, the chemical formula for carbon dioxide is [tex]\( \text{CO}_2 \)[/tex].
3. Carbon Monoxide:
- The name "carbon monoxide" consists of one carbon atom and "mono-" which indicates one oxygen atom.
- Therefore, the chemical formula for carbon monoxide is [tex]\( \text{CO} \)[/tex].
4. Dichlorine Trioxide:
- The name "dichlorine trioxide" comprises "di-" indicating two chlorine atoms, and "tri-" which signifies three oxygen atoms.
- Therefore, the chemical formula for dichlorine trioxide is [tex]\( \text{Cl}_2\text{O}_3 \)[/tex].
Now, we'll complete the table with the appropriate chemical formulas:
[tex]\[
\begin{tabular}{|c|c|}
\hline
\multicolumn{2}{|c|}{\text{some binary molecular compounds}} \\
\hline
\text{name} & \text{chemical formula} \\
\hline
\text{dichlorine heptoxide} & \(\text{Cl}_2\text{O}_7\) \\
\hline
\text{carbon dioxide} & \(\text{CO}_2\) \\
\hline
\text{carbon monoxide} & \(\text{CO}\) \\
\hline
\text{dichlorine trioxide} & \(\text{Cl}_2\text{O}_3\) \\
\hline
\end{tabular}
\][/tex]
This completes our table with the chemical formulas for the given binary molecular compounds.
