Consider the equilibrium shown. PbBr₂ (s) Pb²+ (aq) + 2 Br¯(aq) Ksp = 2.10 x 10-6 Determine the concentrations of Pb²+ and Br in a saturated solution of PbBr₂ in pure water (assume μ = 0 M). [Pb²+] = M [Pb²+] = Determine the concentrations of Pb²+ and Br in a saturated solution of PbBr2 in a solution with an ionic strength of 0.010 M. [Br] = M [Br] = Determine the concentrations of Pb²+ and Br in a saturated solution of PbBr2 in a solution with an ionic strength of 0.10 M.

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Consider the equilibrium shown.
PbBr₂ (s) = Pb²+ (aq) + 2 Br¯(aq) Ksp = 2.10 x 10-6
Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in pure water (assume µ = 0 M).
[Pb²+] =
M
[Pb²+] =
Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of
0.010 M.
[Br¯] =
M
[Br¯] =
Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of
0.10 M.
M
M
Transcribed Image Text:Consider the equilibrium shown. PbBr₂ (s) = Pb²+ (aq) + 2 Br¯(aq) Ksp = 2.10 x 10-6 Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in pure water (assume µ = 0 M). [Pb²+] = M [Pb²+] = Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of 0.010 M. [Br¯] = M [Br¯] = Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of 0.10 M. M M
Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of
0.10 M.
[Pb²+] =
M
[Br] =
M
Transcribed Image Text:Determine the concentrations of Pb²+ and Br¯ in a saturated solution of PbBr₂ in a solution with an ionic strength of 0.10 M. [Pb²+] = M [Br] = M
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