In this activity we considered KNO3 solutions in the range 1.0x10-1 from 1 than they are for the lower concentration KNO3 to 1.0x10-5 M. The Extended Debye-Hückel equation is a reasonable way to compute activity coefficients for μ ≤ 0.1 M. Suppose we have AgBr(s) dissolved in a 1.0 M solution of KNO3. At this ionic strength will the activity coefficients be closer to or further solutions?
In this activity we considered KNO3 solutions in the range 1.0x10-1 from 1 than they are for the lower concentration KNO3 to 1.0x10-5 M. The Extended Debye-Hückel equation is a reasonable way to compute activity coefficients for μ ≤ 0.1 M. Suppose we have AgBr(s) dissolved in a 1.0 M solution of KNO3. At this ionic strength will the activity coefficients be closer to or further solutions?
Principles of Modern Chemistry
8th Edition
ISBN:9781305079113
Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Chapter16: Solubility And Precipitation Equilibria
Section: Chapter Questions
Problem 39P
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In this activity we considered KNO3 solutions in the range 1.0x10-1 from 1 than they are for the lower concentration KNO3 to 1.0x10-5 M. The Extended Debye-Hückel equation is a reasonable way to compute activity coefficients for μ ≤ 0.1 M. Suppose we have AgBr(s) dissolved in a 1.0 M solution of KNO3. At this ionic strength will the activity coefficients be closer to or further solutions?
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