K$_{sp}$ of Ag$_2$CrO$_4$ = 32xK$_{sp}$ of AgBr = 4y Then, the ratio of molarity (solubility) of (1) to (2) is:
K$_{sp}$ of AgBr = 4y Then, the ratio of molarity (solubility) of (1) to (2) is:
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- \(\dfrac{2 \sqrt[3]{x}}{y}\)
- \(\dfrac{3 \sqrt{x}}{\sqrt{y}}\)
- \(\dfrac{\sqrt{x}}{y}\)
- \(2 \sqrt{\dfrac{x}{y}}\)
The Correct Option is A
Solution and Explanation
For Ag$_2$CrO$_4$ (1), \( K_{sp} = [Ag^+]^2[CrO_4^{2-}] = (2s)^2(s) = 4s^3 \). Given \( 4s^3 = 32x \), so \( s = 2\sqrt[3]{x} \).
For AgBr (2), \( K_{sp} = [Ag^+][Br^-] = (t)(t) = t^2 \). Given \( t^2 = 4y \), so \( t = 2\sqrt{y} \).
Ratio \( s/t = 2\sqrt[3]{x} / 2\sqrt{y} = \sqrt[3]{x} / \sqrt{y} \). According to given options, we identify the match.
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