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coverpagefinal3 - nS ◦(react Δ G ◦ rxn = X n Δ G ◦...

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1 atm = 1.01325 × 10 5 Pa 1 bar = 10 5 Pa 1 atm = 14.7 psi sea level = 1 atm 1 ˚ A= 10 - 10 m 1 L · atm = 101.325 J 1 L · bar = 100 J R = 0 . 08206 L · atm/mol · K R = 8 . 314 J/mol · K R = 62 . 36 L · torr/mol · K N A = 6 . 022 × 10 23 mol - 1 k = 1 . 381 × 10 - 23 J/K E = c = λ · ν λ = h p = h mv 1 2 mv 2 = - Φ ν = R µ 1 n 2 1 - 1 n 2 2 R = 3 . 29 × 10 15 Hz E n = n 2 h 2 8 mL 2 n = 1 , 2 , 3 , ··· E n = - h R n 2 R = m e e 4 8 h 3 ² 2 0 P = dhg PV = nRT P total = P A + P B + P C + ··· x A = P A /P total µ P + a n 2 V 2 ( V - nb ) = nRT rate of eFusion (or speed) r T M Δ U = q + w H = U + PV Δ U = q V = C V Δ T = n C V, m Δ T Δ H = q P = C P Δ T = n C P, m Δ T w = - P Δ V w = - Δ nRT Δ U = Δ H - P Δ V Δ U = Δ H - Δ nRT Δ H rxn = Δ H 1 + Δ H 2 + Δ H 3 + ... Δ H rxn = X nB.E. (react) - X nB.E. (prod) Δ H rxn = X n Δ H f (prod) - X n Δ H f (react) Δ S rxn = X nS (prod) - X
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Unformatted text preview: nS ◦ (react) Δ G ◦ rxn = X n Δ G ◦ f (prod)-X n Δ G ◦ f (react) Δ H ◦ r ( T 2 ) = Δ H ◦ r ( T 1 ) + Δ C P Δ T Δ C P = X nC P, m (prod)-X nC P, m (react) w =-nRT ln V 2 V 1 Δ S = nR ln V 2 V 1 Δ S = C V ln T 2 T 1 Δ S = C P ln T 2 T 1 Δ H vaporization ≈ 85 J/mol K d S = d q rev /T S = k ln W G = H-TS Δ G = Δ H-T Δ S...
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This note was uploaded on 01/23/2011 for the course CH 301 taught by Professor Fakhreddine/lyon during the Spring '07 term at University of Texas.

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