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About 14 results
  • 16.3: Entropy
    https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2200%3A_General_Chemistry_II_(Mink)/16%3A_Thermodynamics/16.03%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 6.1: Entropy
    https://chem.libretexts.org/Bookshelves/Physical_and_Theoretical_Chemistry_Textbook_Maps/Chemical_Thermodynamics_(Supplement_to_Shepherd_et_al.)/06%3A_Fundamental_5_-_Entropy/6.01%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<Sgas in a given physical state at a given temperature.
  • 10.2: Entropy
    https://chem.libretexts.org/Courses/SUNY_Oneonta/Chem_221%3A_Organic_Chemistry_I_(Bennett)/3%3AStuff_to_Review_from_General_Chemistry/10%3A_Thermodynamics/10.02%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<Sgas in a given physical state at a given temperature.
  • 6.2: Entropy
    https://chem.libretexts.org/Courses/Nassau_Community_College/General_Chemistry_II/06%3A_Thermodynamics/6.02%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<Sgas in a given physical state at a given temperature.
  • 8.8: Entropy
    https://chem.libretexts.org/Courses/Williams_School/Chemistry_I/08%3A_State_Changes_and_Thermodynamics/8.08%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 16.3: Entropy
    https://chem.libretexts.org/Workbench/OpenStax_Chemistry_Remixed%3A_Clovis_Community_College/16%3A_Thermodynamics/16.03%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 2.2.4: Entropy
    https://chem.libretexts.org/Courses/University_of_North_Carolina_Charlotte/CHEM_2141%3A__Survey_of_Physical_Chemistry/02%3A_General_Chemistry_Review/2.02%3A_Thermodynamics/2.2.04%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 16.3: Entropy
    https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_2100%3A_General_Chemistry_I_(Mink)/16%3A_Thermodynamics/16.03%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 8.2: Entropy
    https://chem.libretexts.org/Courses/Thompson_Rivers_University/TRU%3A_Fundamentals_and_Principles_of_Chemistry_(CHEM_1510_and_CHEM_1520)/08%3A_Entropy_and_Free_Energy/8.02%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 16.2: Entropy
    https://chem.libretexts.org/Bookshelves/General_Chemistry/Chemistry_2e_(OpenStax)/16%3A_Thermodynamics/16.02%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at
  • 10.4.1.1: Entropy
    https://chem.libretexts.org/Courses/Grand_Rapids_Community_College/CHM_120%3A_Survey_of_General_Chemistry_(Crandell)/10%3A_Thermochemistry_and_Thermodynamics/10.04%3A_Thermodynamics/10.4.01%3A_Spontaneity/10.4.1.01%3A_Entropy
    Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature....Entropy (S) is a state function that can be related to the number of microstates for a system (the number of ways the system can be arranged) and to the ratio of reversible heat to Kelvin temperature. It may be interpreted as a measure of the dispersal or distribution of matter and/or energy in a system, and it is often described as representing the “disorder” of the system. For a given substance, Ssolid<Sliquid<SgasSsolid<Sliquid<SgasS_{solid} < S_{liquid} < S_{gas} in a given physical state at

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