![]() ![]() ![]() Therefore: Ssolid 0 DSsurr = -DHsys/T DSuniv = DSsys - DHsys/T -TDSuniv = DGsys = DHsys - TDSsys A gas expands into a vacuum because the expanded state has the highest positional probability of states available to the system.The Microstates That Give a Particular Arrangement (State) ![]() Entropy is used to predict whether a given process/reaction is thermodynamically possible.Nature spontaneously proceeds toward the state that has the highest probability of (energy) existence – highest entropy.The driving force for a spontaneous process is an increase in the entropy of the universe.As a state function – entropy change depends only on the initial and final states, but not on how the change occurs.A thermodynamic (energy) function that describes the degree of randomness or probability of existence.Thermodynamic function that describes the number of arrangements that are available to a system existing in a given state.The Expansion of An Ideal Gas Into an Evacuated Bulb c) Given your answer to part b, what is the driving force for the process? Entropy This bulb is connected by a valve to an evacuated 20.0 L bulb. All are equal to zero.Ĭoncept Check Consider 2.4 moles of a gas contained in a 4.0 L bulb at a constant temperature of 32☌. Calculate H, E, q, and w for the process you described above.What should happen to the gas when you open the valve?.A spontaneous process is one that occurs without outside intervention.Ĭoncept Check Consider 2.4 moles of a gas contained in a 4.0 L bulb at a constant temperature of 32☌.Thermodynamics lets us predict whether a process will occur but gives no information about the amount of time required for the process.For processes that do not involve phase changes, positive DE results in temperature increase.w is assigned a positive value if work is done on, but a negative value if work is done by the system.q is assigned a positive value if heat isabsorbed, but a negative value if heat islost by the system.For work that only involves gas expansion or compression, w = -pDV.The change in the internal energy (DE) of a thermodynamic system is equal to the amount of heat energy (q) added to or lost by the system plus work done (w) on or by the system.Thermodynamics tells us whether a reaction is spontaneous based only on the properties of reactants and products.Rate of a reaction depends on the pathway from reactants to products.The chemistry that deals with energy exchange, entropy, and the spontaneity of a chemical process. ![]()
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