Fixed blessed output for HMW_test_1 to correspond to DEBUG_MODE being undefined
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@ -28,278 +28,6 @@ Index Name MoleF MolalityCropped Charge
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OH- Na+ Cl- -0.00600
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a1 = 3.04284e-10
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a2 = 3.04284e-10
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Debugging information from hmw_act
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Step 1:
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ionic strenth = 6.0997000e+00
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total molar charge = 1.2199400e+01
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Is = 6.0997
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ij = 1, elambda = 0.0454012, elambda1 = -0.00306854
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ij = 2, elambda = 0.200776, elambda1 = -0.014532
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ij = 3, elambda = 0.47109, elambda1 = -0.0351127
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ij = 4, elambda = 0.857674, elambda1 = -0.0650149
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ij = 4, elambda = 0.857674, elambda1 = -0.0650149
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ij = 6, elambda = 1.98206, elambda1 = -0.153152
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ij = 8, elambda = 3.57685, elambda1 = -0.279391
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ij = 9, elambda = 4.55112, elambda1 = -0.356872
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ij = 12, elambda = 8.18289, elambda1 = -0.646977
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ij = 16, elambda = 14.6822, elambda1 = -1.16875
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Step 2:
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z1= 1 z2= 1 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 1 z2= 2 E-theta(I) = -0.059044, E-thetaprime(I) = 0.004790
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z1= 1 z2= 3 E-theta(I) = -0.355533, E-thetaprime(I) = 0.028969
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z1= 1 z2= 4 E-theta(I) = -1.068400, E-thetaprime(I) = 0.087216
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z1= 2 z2= 1 E-theta(I) = -0.059044, E-thetaprime(I) = 0.004790
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z1= 2 z2= 2 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 2 z2= 3 E-theta(I) = -0.178237, E-thetaprime(I) = 0.014566
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z1= 2 z2= 4 E-theta(I) = -0.951372, E-thetaprime(I) = 0.077813
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z1= 3 z2= 1 E-theta(I) = -0.355533, E-thetaprime(I) = 0.028969
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z1= 3 z2= 2 E-theta(I) = -0.178237, E-thetaprime(I) = 0.014566
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z1= 3 z2= 3 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 3 z2= 4 E-theta(I) = -0.357010, E-thetaprime(I) = 0.029220
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z1= 4 z2= 1 E-theta(I) = -1.068400, E-thetaprime(I) = 0.087216
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z1= 4 z2= 2 E-theta(I) = -0.951372, E-thetaprime(I) = 0.077813
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z1= 4 z2= 3 E-theta(I) = -0.357010, E-thetaprime(I) = 0.029220
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z1= 4 z2= 4 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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Step 3:
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Species Species g(x) hfunc(x)
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Cl- H+ 0.07849 -0.07133
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Cl- Na+ 0.07849 -0.07133
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Cl- OH- 0.00000 0.00000
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H+ Na+ 0.00000 0.00000
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H+ OH- 0.07849 -0.07133
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Na+ OH- 0.07849 -0.07133
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Step 4:
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Species Species BMX BprimeMX BphiMX
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1 0.200614: 0.1775 0.2945 0 0.0784862
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Cl- H+ 0.2006142 -0.0034438 0.1796081
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2 0.0974087: 0.0765 0.2664 0 0.0784862
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Cl- Na+ 0.0974087 -0.0031152 0.0784069
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Cl- OH- 0.0000000 0.0000000 0.0000000
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H+ Na+ 0.0000000 0.0000000 0.0000000
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5 0: 0 0 0 0.0784862
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H+ OH- 0.0000000 0.0000000 0.0000000
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6 0.106257: 0.0864 0.253 0 0.0784862
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Na+ OH- 0.1062570 -0.0029585 0.0882110
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Step 5:
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Species Species CMX
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Cl- H+ 0.0004000
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Cl- Na+ 0.0006350
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Cl- OH- 0.0000000
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H+ Na+ 0.0000000
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H+ OH- 0.0000000
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Na+ OH- 0.0022000
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Step 6:
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Species Species Phi_ij Phiprime_ij Phi^phi_ij
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Cl- H+ 0.000000 0.000000 0.000000
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Cl- Na+ 0.000000 0.000000 0.000000
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Cl- OH- -0.050000 0.000000 -0.050000
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H+ Na+ 0.036000 0.000000 0.036000
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H+ OH- 0.000000 0.000000 0.000000
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Na+ OH- 0.000000 0.000000 0.000000
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Step 7:
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initial value of F = -1.143942
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F = -1.143942
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F = -1.259847
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F = -1.259847
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F = -1.259847
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F = -1.259847
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F = -1.259847
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Step 8: Summing in All Contributions to Activity Coefficients
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Contributions to ln(ActCoeff_Cl-):
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Unary term: z*z*F = -1.25985
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Tern CMX term on Cl-,H+: abs(z_i) m_j m_k CMX = 0.00000
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Tern CMX term on Cl-,Na+: abs(z_i) m_j m_k CMX = 0.02363
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Bin term with H+: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Psi term on H+,Na+: m_j m_k psi_ijk = -0.00000
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Bin term with Na+: 2 m_j BMX = 1.18833
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m_j Z CMX = 0.04725
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Phi term with OH-: 2 m_j Phi_aa = -0.00000
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Psi term on OH-,Na+: m_j m_k psi_ijk = -0.00000
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Tern CMX term on OH-,Na+: abs(z_i) m_j m_k CMX = 0.00000
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Net Cl- lngamma[i] = -0.00064 gamma[i]= 0.999359
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Contributions to ln(ActCoeff_H+):
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Unary term: z*z*F = -1.25985
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Bin term with Cl-: 2 m_j BMX = 2.44737
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m_j Z CMX = 0.02977
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Tern CMX term on H+,Cl-: abs(z_i) m_j m_k CMX = 0.00000
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Phi term with Na+: 2 m_j Phi_cc = 0.43918
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Psi term on Na+,Cl-: m_j m_k psi_ijk = -0.14883
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Tern CMX term on Na+,Cl-: abs(z_i) m_j m_k CMX = 0.02363
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Tern CMX term on Na+,OH-: abs(z_i) m_j m_k CMX = 0.00000
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Bin term with OH-: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Net H+ lngamma[i] = 1.53127 gamma[i]= 4.624042
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Contributions to ln(ActCoeff_Na+):
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Unary term: z*z*F = -1.25985
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Bin term with Cl-: 2 m_j BMX = 1.18833
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m_j Z CMX = 0.04725
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Psi term on Cl-,OH-: m_j m_k psi_ijk = -0.00000
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Phi term with H+: 2 m_j Phi_cc = 0.00000
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Psi term on H+,Cl-: m_j m_k psi_ijk = -0.00000
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Tern CMX term on H+,Cl-: abs(z_i) m_j m_k CMX = 0.00000
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Tern CMX term on Na+,Cl-: abs(z_i) m_j m_k CMX = 0.02363
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Tern CMX term on Na+,OH-: abs(z_i) m_j m_k CMX = 0.00000
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Bin term with OH-: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Net Na+ lngamma[i] = -0.00064 gamma[i]= 0.999359
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Contributions to ln(ActCoeff_OH-):
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Unary term: z*z*F = -1.25985
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Phi term with Cl-: 2 m_j Phi_aa = -0.60997
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Tern CMX term on Cl-,H+: abs(z_i) m_j m_k CMX = 0.00000
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Psi term on Cl-,Na+: m_j m_k psi_ijk = -0.22324
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Tern CMX term on Cl-,Na+: abs(z_i) m_j m_k CMX = 0.02363
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Bin term with H+: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Bin term with Na+: 2 m_j BMX = 1.29627
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m_j Z CMX = 0.16371
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Tern CMX term on OH-,Na+: abs(z_i) m_j m_k CMX = 0.00000
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Net OH- lngamma[i] = -0.60945 gamma[i]= 0.543650
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Step 9:
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term1= -1.489777 sum1= 3.205458 sum2= 0.000000 sum3= -0.000001 sum4= 0.000000 sum5= 0.000000
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sum_m_phi_minus_1= 3.431360 osmotic_coef= 1.281273
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Step 10:
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Weight of Solvent = 18.01528
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molalitySumUncropped = 12.1994
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ln_a_water= -0.281593 a_water= 0.754581
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Debugging information from hmw_act
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Step 1:
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ionic strenth = 6.0997000e+00
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total molar charge = 1.2199400e+01
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Is = 6.0997
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ij = 1, elambda = 0.0454012, elambda1 = -0.00306854
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ij = 2, elambda = 0.200776, elambda1 = -0.014532
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ij = 3, elambda = 0.47109, elambda1 = -0.0351127
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ij = 4, elambda = 0.857674, elambda1 = -0.0650149
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ij = 4, elambda = 0.857674, elambda1 = -0.0650149
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ij = 6, elambda = 1.98206, elambda1 = -0.153152
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ij = 8, elambda = 3.57685, elambda1 = -0.279391
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ij = 9, elambda = 4.55112, elambda1 = -0.356872
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ij = 12, elambda = 8.18289, elambda1 = -0.646977
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ij = 16, elambda = 14.6822, elambda1 = -1.16875
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Step 2:
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z1= 1 z2= 1 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 1 z2= 2 E-theta(I) = -0.059044, E-thetaprime(I) = 0.004790
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z1= 1 z2= 3 E-theta(I) = -0.355533, E-thetaprime(I) = 0.028969
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z1= 1 z2= 4 E-theta(I) = -1.068400, E-thetaprime(I) = 0.087216
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z1= 2 z2= 1 E-theta(I) = -0.059044, E-thetaprime(I) = 0.004790
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z1= 2 z2= 2 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 2 z2= 3 E-theta(I) = -0.178237, E-thetaprime(I) = 0.014566
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z1= 2 z2= 4 E-theta(I) = -0.951372, E-thetaprime(I) = 0.077813
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z1= 3 z2= 1 E-theta(I) = -0.355533, E-thetaprime(I) = 0.028969
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z1= 3 z2= 2 E-theta(I) = -0.178237, E-thetaprime(I) = 0.014566
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z1= 3 z2= 3 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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z1= 3 z2= 4 E-theta(I) = -0.357010, E-thetaprime(I) = 0.029220
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z1= 4 z2= 1 E-theta(I) = -1.068400, E-thetaprime(I) = 0.087216
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z1= 4 z2= 2 E-theta(I) = -0.951372, E-thetaprime(I) = 0.077813
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z1= 4 z2= 3 E-theta(I) = -0.357010, E-thetaprime(I) = 0.029220
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z1= 4 z2= 4 E-theta(I) = 0.000000, E-thetaprime(I) = 0.000000
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Step 3:
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Species Species g(x) hfunc(x)
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Cl- H+ 0.07849 -0.07133
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Cl- Na+ 0.07849 -0.07133
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Cl- OH- 0.00000 0.00000
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H+ Na+ 0.00000 0.00000
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H+ OH- 0.07849 -0.07133
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Na+ OH- 0.07849 -0.07133
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Step 4:
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Species Species BMX BprimeMX BphiMX
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1 0.200614: 0.1775 0.2945 0 0.0784862
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Cl- H+ 0.2006142 -0.0034438 0.1796081
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2 0.0974087: 0.0765 0.2664 0 0.0784862
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Cl- Na+ 0.0974087 -0.0031152 0.0784069
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Cl- OH- 0.0000000 0.0000000 0.0000000
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H+ Na+ 0.0000000 0.0000000 0.0000000
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5 0: 0 0 0 0.0784862
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H+ OH- 0.0000000 0.0000000 0.0000000
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6 0.106257: 0.0864 0.253 0 0.0784862
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Na+ OH- 0.1062570 -0.0029585 0.0882110
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Step 5:
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Species Species CMX
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Cl- H+ 0.0004000
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Cl- Na+ 0.0006350
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Cl- OH- 0.0000000
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H+ Na+ 0.0000000
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H+ OH- 0.0000000
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Na+ OH- 0.0022000
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Step 6:
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Species Species Phi_ij Phiprime_ij Phi^phi_ij
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Cl- H+ 0.000000 0.000000 0.000000
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Cl- Na+ 0.000000 0.000000 0.000000
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Cl- OH- -0.050000 0.000000 -0.050000
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H+ Na+ 0.036000 0.000000 0.036000
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H+ OH- 0.000000 0.000000 0.000000
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Na+ OH- 0.000000 0.000000 0.000000
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Step 7:
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initial value of F = -1.143942
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F = -1.143942
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F = -1.259847
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F = -1.259847
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F = -1.259847
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F = -1.259847
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F = -1.259847
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Step 8: Summing in All Contributions to Activity Coefficients
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Contributions to ln(ActCoeff_Cl-):
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Unary term: z*z*F = -1.25985
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Tern CMX term on Cl-,H+: abs(z_i) m_j m_k CMX = 0.00000
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Tern CMX term on Cl-,Na+: abs(z_i) m_j m_k CMX = 0.02363
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Bin term with H+: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Psi term on H+,Na+: m_j m_k psi_ijk = -0.00000
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Bin term with Na+: 2 m_j BMX = 1.18833
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m_j Z CMX = 0.04725
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Phi term with OH-: 2 m_j Phi_aa = -0.00000
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Psi term on OH-,Na+: m_j m_k psi_ijk = -0.00000
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Tern CMX term on OH-,Na+: abs(z_i) m_j m_k CMX = 0.00000
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Net Cl- lngamma[i] = -0.00064 gamma[i]= 0.999359
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Contributions to ln(ActCoeff_H+):
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Unary term: z*z*F = -1.25985
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Bin term with Cl-: 2 m_j BMX = 2.44737
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m_j Z CMX = 0.02977
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Tern CMX term on H+,Cl-: abs(z_i) m_j m_k CMX = 0.00000
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Phi term with Na+: 2 m_j Phi_cc = 0.43918
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Psi term on Na+,Cl-: m_j m_k psi_ijk = -0.14883
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Tern CMX term on Na+,Cl-: abs(z_i) m_j m_k CMX = 0.02363
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Tern CMX term on Na+,OH-: abs(z_i) m_j m_k CMX = 0.00000
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Bin term with OH-: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Net H+ lngamma[i] = 1.53127 gamma[i]= 4.624042
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Contributions to ln(ActCoeff_Na+):
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Unary term: z*z*F = -1.25985
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Bin term with Cl-: 2 m_j BMX = 1.18833
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m_j Z CMX = 0.04725
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Psi term on Cl-,OH-: m_j m_k psi_ijk = -0.00000
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Phi term with H+: 2 m_j Phi_cc = 0.00000
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Psi term on H+,Cl-: m_j m_k psi_ijk = -0.00000
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Tern CMX term on H+,Cl-: abs(z_i) m_j m_k CMX = 0.00000
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Tern CMX term on Na+,Cl-: abs(z_i) m_j m_k CMX = 0.02363
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Tern CMX term on Na+,OH-: abs(z_i) m_j m_k CMX = 0.00000
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Bin term with OH-: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Net Na+ lngamma[i] = -0.00064 gamma[i]= 0.999359
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Contributions to ln(ActCoeff_OH-):
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Unary term: z*z*F = -1.25985
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Phi term with Cl-: 2 m_j Phi_aa = -0.60997
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Tern CMX term on Cl-,H+: abs(z_i) m_j m_k CMX = 0.00000
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Psi term on Cl-,Na+: m_j m_k psi_ijk = -0.22324
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Tern CMX term on Cl-,Na+: abs(z_i) m_j m_k CMX = 0.02363
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Bin term with H+: 2 m_j BMX = 0.00000
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m_j Z CMX = 0.00000
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Bin term with Na+: 2 m_j BMX = 1.29627
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m_j Z CMX = 0.16371
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Tern CMX term on OH-,Na+: abs(z_i) m_j m_k CMX = 0.00000
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Net OH- lngamma[i] = -0.60945 gamma[i]= 0.543650
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Step 9:
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term1= -1.489777 sum1= 3.205458 sum2= 0.000000 sum3= -0.000001 sum4= 0.000000 sum5= 0.000000
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sum_m_phi_minus_1= 3.431360 osmotic_coef= 1.281273
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Step 10:
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Weight of Solvent = 18.01528
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molalitySumUncropped = 12.1994
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ln_a_water= -0.281593 a_water= 0.754581
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Name Activity ActCoeffMolal MoleFract Molality
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H2O(L) 0.754581 0.92042 0.819823 55.5084
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Cl- 6.09579 0.999359 0.0900885 6.0997
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