is the process of separating ions by exploiting differences in their solubility product constants ((K_sp)). The less soluble compound (smaller (K_sp)) precipitates first as you slowly add a reagent. The Critical Condition: Q vs. (K_sp) Precipitation begins when the ion product (Q) exceeds the solubility product constant ((K_sp)). For a generic salt (A_mB_n): [ Q = [A^n+]^m [B^m-]^n ] When (Q > K_sp), precipitation occurs. The key to fractional precipitation is that the smaller the (K_sp), the lower the concentration of precipitating ion needed to start precipitation. The Educational Power of POGIL Activities POGIL activities are designed to build conceptual understanding through guided questions. A typical Fractional Precipitation POGIL will present a scenario: a solution containing, for example, 0.01 M Cl⁻ and 0.01 M I⁻. You slowly add 0.01 M AgNO₃. Which precipitates first, AgCl ((K_sp = 1.8 \times 10^-10)) or AgI ((K_sp = 8.5 \times 10^-17))?
For AgCl: ([Ag^+] = \frac1.8 \times 10^-100.010 = 1.8 \times 10^-8 , M) fractional precipitation pogil answer key best
Second precipitate (PbBr₂) begins at [Pb²⁺] = (2.64 \times 10^-3 M). At that [Pb²⁺], [CrO₄²⁻] remaining is: [ [CrO_4^2-] = \frac2.8 \times 10^-132.64 \times 10^-3 = 1.06 \times 10^-10 M ] is the process of separating ions by exploiting
For PbBr₂ (1:2 salt): (K_sp = [Pb^2+][Br^-]^2 \Rightarrow [Pb^2+] = \frac6.6 \times 10^-6(0.050)^2 = \frac6.6 \times 10^-60.0025 = 2.64 \times 10^-3 M) (K_sp) Precipitation begins when the ion product (Q)