DAT Entropy and Enthalpy, DAT Thermodynamics
How to identify if dS of the rxn is positive or negative
-If there are more moles of gas on the reactant side, -dS -If there are more moles of gas on the product side, +dS
Entropy, enthalpy, and Gibbs free E are what kinds of fxns?
A state fxn that is independent of pathway; only depends on initial and final state of system
G to L to S represents what?
Decrease in entropy and enthalpy -exothermic process -dS and dH= - <0 -includes condensation, crystallization, and deposition.
equilibrium
Delta G = 0 (deltaS=deltaH/T).
non-spontaneous
Delta G > 0
spontaneous
DeltaG < 0
When can dS=0?
Only at absolute zero Kelvin with perfect crystals
How to measure T of rxn?
You cant so you measure T of surroundings -endothermic rxn- observed by cold/low T surroundings -Exothermic rxn- surroundings get hot
Enthalpy
dH= heat change at constant pressure -dH= + endothermic; system brings heat inside it and absorbs heat from surroundings; consumes heat form outside -dH= - exothermic
Gibb's free energy
deltaG = (Sum nDeltaGf, products)-(Sum nDeltaGf, reactants). deltaG=deltaGstandard+RTlnQ deltaGstandard=-RTlnKeq. deltaG=deltaH - TdeltaS DeltaG changes every time the condition changes. DeltaGstandard remains constant.
spontaneous at low temperatures
deltaG=deltaH - TdeltaS, where delta H is negative and delta S is negative.
spontaneous at all temperatures
deltaG=deltaH - TdeltaS, where delta H is negative and deltaS is positive
non-spontaneous at all temperatures
deltaG=deltaH - TdeltaS, where delta H is positive and delta S is negative.
spontaneous at high temperatures
deltaG=deltaH - TdeltaS, where delta H is positive and delta S is positive.
enthalpies of formation
deltaH = (Sum nDeltaHf, products)-(Sum nDeltaHf, reactants).
Gas to liquid
exothermic
Gas to solid
exothermic vapor deposition
Liquid to solid
exothermic; freezing is an exothermic process so the "beaker" gets hot -remove heat from the molecules -system loses heat
S to L to G represents what?
increase in entropy (more disordered molecules) and enthalpy -endothermic rxn - dS= + >0 - dH= + >0 - includes fusion, vaporization, and sublimation
entropy (S)
n= moles in balanced rxn dS=(Sum of nSproducts)-(Sum of nSreactants).
q and w are?
not state fxns
