Calculate the activity coefficient ΥAg+ for 0.099 M AgNO3.
1- Calculate activity coefficient of Mg2+ in a 0.0100 M MgCl2 solution. a - By linear interpolation data in table 7-1 b - By using extended Debye-Huckel equation
4. Calculate the overall mean activity coefficient for the solution prepared by mixing 0.020 m MgSO4 with 0.050 m Na3PO4.
Calculate the activity coefficient, y, of Snt when the ionic strength of the solution, , is 0.062 M by linear interpolation of the data in the table. Ionic strength (H, M) 0.001 Activity coefficient (75m?) 0.870 0.005 0.43 0.749 YSa+= 0.01 0.05 10.1 0.675 0.485 0.405 Calculate the activity coefficient, y of Snt when the ionic strength of the solution, , is 0.062 M by using the extended Debye-Hückel equation at 25 °C, where the ion size is 600 pm....
6. Calculate the activity coefficient of each ion in 0.20 M solution of Lithium Nitrate (LiNO3) and 0.10 M solution of Lithium Carbonate (Li2CO3).
Activity Calculate the activity coefficient, y, of Fe2+ when the ionic strength of the solution, μ , is 0.074 M lonic Strength Coefficient 2+ (a) by linear interpolation of the data in the table to the right; 0.001 0.005 0.01 0.05 0.1 0.870 0.749 0.675 0.485 0.405 Number Fe (b) by using the extended Debye-Huckel equation at 25°C, where the ion size is 600 pm Number Fe
Question 6 of 11 Calculate the activity coefficient, y, of Ca2 when the ionic Y. Ionic Activity strength of the solution, , is 0.083 M by linear interpolation of the data in the table. strength (и, М) coefficient (YCa) 0.001 0.870 0.005 0.749 YCa+ 0.01 0.675 0.05 0.485 Calculate the activity coefficient, y, of Ca2+ when the ionic strength of the solution, u, is 0.083 M by using the extended Debye-Hückel equation at 25 °C, where the ion size is...
Calculate the ionic strength of 0.1121 M AgNO3+0.0950 M MgCl2+0.1040 M AlCl3.
Calculate the activity coefficient, ?, of Cu2 when the ionic strength of the solution, ? , is 0.078 M: (a) by linear interpolation of the data in the table to the right; yCu2+ = 0.440 (b) by using the extended Debye-Huckel equation at 25°C, where the ion size is 600 pm. yCu2+ = answer to part a is correct. ionic strength (,M) activity coeffient Cu2+ 0.001 0.870 0.005 0.749 0.01 0.675 0.05 0.485 0.1 0.405
Calculate [Ag+] at equilibrium when 0.220 M concentrated ammonia, NH3, is added to 0.020 M AgNO3. Assume AgNO3 dissociates completely. Neglect volume change.
Consider the titration of 25.00 mL of 0.0925 M KI with 0.0695 M AgNO3. Calculate pAg+ at the following volumes of added AgNO3: (a) 30.00 mL; (b) Ve; (c) 35.27 mL. Ksp (AgI) = 8.3×10-17