218. Which option is incorrect? (Consider the specific heat capacities of water and copper to be $4.2$ and $0.4\ \text{J}$ per gram per degree Celsius respectively.)
The specific heat capacity of every substance is independent of its bonding amount.
The specific heat capacity of $9\ \text{g}$ of water is $10$ times the specific heat capacity of $9.45\ \text{g}$ of copper at the same temperature.
Thermodynamics is the study of the transformation of various forms of energy into one another and the ways of transferring them.
The specific heat capacity of one cubic centimeter of water vapor is greater than that of liquid water at room temperature and pressure.
\textbf{218.} Which option is \underline{incorrect}? (Consider the specific heat capacities of water and copper to be $4.2$ and $0.4\ \text{J}$ per gram per degree Celsius respectively.)
\begin{enumerate}
\item The specific heat capacity of every substance is independent of its bonding amount.
\item The specific heat capacity of $9\ \text{g}$ of water is $10$ times the specific heat capacity of $9.45\ \text{g}$ of copper at the same temperature.
\item Thermodynamics is the study of the transformation of various forms of energy into one another and the ways of transferring them.
\item The specific heat capacity of one cubic centimeter of water vapor is greater than that of liquid water at room temperature and pressure.
\end{enumerate}
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