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Condition of Equilibrium & Criterion for Spontaneity | Physical Chemistry PDF Download

Condition of equilibrium and criterion for a spontaneous process.

The entropy of a system remains unchanged in a reversible change while it increases in an irreversible change i.e.

Condition of Equilibrium & Criterion for Spontaneity | Physical Chemistry0  for reversible change
andCondition of Equilibrium & Criterion for Spontaneity | Physical Chemistry 0 for irreversible change

For a system with its surrounding

                     dsystem + dSsurrounding = 0 for reversible change
and                dsystem + dSsurrounding > 0 for irreversible change

then we have

dsystem + dSsurrounding ≥ 0

The criteria for reversible and irreversible process in terms. Of entropy as well as in terms U, H, A & G.

By the equation,

 Condition of Equilibrium & Criterion for Spontaneity | Physical Chemistry

We know that

                              qirr < qrev then
                              TdS > dqrev (for irreversible process)
Thus we write,       TdS = dU + PdV (for reversible process)
                               TdS > dU + PdV (for irreversible process)
Combining we get, TdS ≥ dU + PdV             

(i)  Criterion in terms of change of entropy: Let U & V remains constant.
                       T(dS)U, V ≥ 0  or  (dS)U, V ≥ 0

The equal sign refers to reversible and greater-sign refers to an irreversible process.

(ii)  Criterion in terms of change of internal energy: Let S & V constant then         

                        (dS)U, V ≥ 0

(iii) Criterion in terms of change of enthalpy: Let S & P are constant then

TdS ≥ dU + PdV
⇒         dU + PdV ≤ 0
But      dU + PdV = dH
⇒        (dH)S, P ≤ 0

(iv)  Criterion in terms of change of work function:

We know that              dA = dU – TdS & TdS ≥ dU + PdV

then  we get                dA ≤ –PdV

at constant volume and temperature (dA)V, T ≤ 0

(v)  Criterion in terms of change in free energy:

We know that       G = H – TS
⇒                         G = (U + PV) – TS 
⇒                         dG = dU + PdV + VdP – TdS – SdT 
&                          TdS ≥ dU + PdV, we get
⇒                         dG ≤ VdP – SdT

Let P & T are constant then

(dG)P, T ≤ 0

Using thermodynamic magic square we can find these criterion

 Condition of Equilibrium & Criterion for Spontaneity | Physical Chemistry

(dU)S, V ≤ 0,    
(dH)S, P ≤ 0 (dG)P, T ≤ 0,    
(dA)V, T ≤ 0 (dS)U, V ≥ 0

The document Condition of Equilibrium & Criterion for Spontaneity | Physical Chemistry is a part of the Chemistry Course Physical Chemistry.
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FAQs on Condition of Equilibrium & Criterion for Spontaneity - Physical Chemistry

1. What is the condition of equilibrium in chemical reactions?
Ans. The condition of equilibrium in chemical reactions is reached when the forward and reverse reactions occur at equal rates, resulting in no net change in the concentrations of reactants and products.
2. How can the condition of equilibrium be determined experimentally?
Ans. The condition of equilibrium can be determined experimentally by measuring the concentrations of reactants and products over time and observing when they reach a constant value. Additionally, the equilibrium position can be determined by changing the initial concentrations and observing how the system responds.
3. What is the criterion for spontaneity in chemical reactions?
Ans. The criterion for spontaneity in chemical reactions is the Gibbs free energy change (ΔG). If ΔG is negative, the reaction is spontaneous and will proceed in the forward direction. If ΔG is positive, the reaction is non-spontaneous and will not proceed in the forward direction. If ΔG is zero, the reaction is at equilibrium.
4. How can the criterion for spontaneity be related to the condition of equilibrium?
Ans. The criterion for spontaneity can be related to the condition of equilibrium by considering the value of ΔG at equilibrium. At equilibrium, ΔG is zero, indicating that the forward and reverse reactions have equal rates and there is no net change in the concentrations of reactants and products.
5. Can a non-spontaneous reaction ever reach equilibrium?
Ans. No, a non-spontaneous reaction cannot reach equilibrium. A non-spontaneous reaction will not proceed in the forward direction, so it will not reach a condition where the forward and reverse reactions occur at equal rates. Equilibrium is only achieved in spontaneous reactions.
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