Question $\\ce{caco3}$ dissociated in a closed system according to the reaction: Therefore, the number of axis of linear movement is 3 (x,y,z) but there. It is dependent on the structure and number of atoms present in the molecule.
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The degrees of freedom will vary for different molecules and number of atoms in the molecule.
Cao(s) + co2(g)}$$ assuming the reaction is in thermodynamic.
Of course $2$ of these correspond to the two. Degree of freedom and heat capacity degree of freedom in statistical mechanics is the number of independent variables required to define the system completely. So there should be an increase in extent of random motion, leading to significant positive. As part of this, my textbook discusses how to figure out the degrees of freedom for different chemicals.
This implies that the molecule is vibrating. The answer to one of the exercises says methane has 15 degrees of. But oxygen has a degree of freedom 5 and at higher temperature $\ce {co2}$ has 9. Degrees of freedom are defined for a system as the difference between the number of components and the number of phases plus two.
My question is, the only way i can justify this answer is if $\ce {co2}$ had 7 active degrees of freedom at room temperature.
