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$S$

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Intro to Chemistry

Definition

$S$ is a key term that represents the spontaneity of a process or reaction. Spontaneity refers to the natural tendency of a system to undergo a change or transformation without the input of external energy. This concept is central to understanding the thermodynamics of chemical and physical processes.

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5 Must Know Facts For Your Next Test

  1. A process is considered spontaneous if it occurs naturally without the input of external energy.
  2. The spontaneity of a process is determined by the sign of the change in Gibbs free energy ($\Delta G$), where a negative value indicates a spontaneous process.
  3. Entropy is a measure of the disorder or randomness of a system, and an increase in entropy ($\Delta S > 0$) generally favors spontaneous processes.
  4. Exothermic reactions, where energy is released to the surroundings ($\Delta H < 0$), are more likely to be spontaneous.
  5. The spontaneity of a process is influenced by the balance between the changes in enthalpy ($\Delta H$) and entropy ($\Delta S$).

Review Questions

  • Explain the relationship between $S$ and the spontaneity of a process.
    • The spontaneity of a process is directly related to the value of $S$, which represents the change in entropy of the system. A positive change in entropy ($\Delta S > 0$) generally indicates a spontaneous process, as it corresponds to an increase in the disorder or randomness of the system. Conversely, a negative change in entropy ($\Delta S < 0$) would be associated with a non-spontaneous or unfavorable process. The spontaneity of a process is ultimately determined by the balance between the changes in entropy and enthalpy, as captured by the Gibbs free energy equation ($\Delta G = \Delta H - T\Delta S$).
  • Describe how the sign of $\Delta G$ can be used to determine the spontaneity of a process.
    • The sign of the change in Gibbs free energy, $\Delta G$, is a key indicator of the spontaneity of a process. If $\Delta G$ is negative ($\Delta G < 0$), the process is spontaneous and will occur naturally. This means that the decrease in Gibbs free energy provides a driving force for the process to occur. Conversely, if $\Delta G$ is positive ($\Delta G > 0$), the process is non-spontaneous and will not occur naturally without the input of external energy. The relationship between $\Delta G$, $\Delta H$, and $\Delta S$ is captured by the equation $\Delta G = \Delta H - T\Delta S$, where $T$ is the absolute temperature. By analyzing the signs and magnitudes of these thermodynamic quantities, one can determine the spontaneity and feasibility of a given process.
  • Discuss how the balance between enthalpy and entropy changes can influence the spontaneity of a process.
    • The spontaneity of a process is ultimately determined by the balance between the changes in enthalpy ($\Delta H$) and entropy ($\Delta S$). Exothermic reactions, where energy is released to the surroundings ($\Delta H < 0$), are generally more likely to be spontaneous, as the decrease in enthalpy provides a driving force for the process to occur. However, the role of entropy must also be considered. An increase in entropy ($\Delta S > 0$) generally favors spontaneous processes, as it corresponds to an increase in the disorder or randomness of the system. The Gibbs free energy equation, $\Delta G = \Delta H - T\Delta S$, captures the balance between these two factors, where a negative $\Delta G$ indicates a spontaneous process. By analyzing the relative magnitudes and signs of $\Delta H$ and $\Delta S$, one can determine the overall spontaneity of a given process.

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