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Chapter 26: Q14P (page 747)

The system in Figure 26-7 can be adapted to produce the strong acid eluent methane sulfonic acid $({CH}_{3} {SO}_{3}^{-} H^{+})$ . For this purpose, the polarity of the electrodes is reversed and the reservoir contains ${NH}_{4}^{+} {CH}_{3} {SO}_{3}^{-}$ . The barrier membrane and the resin bed at the bottom of the figure must both be anion-exchangers loaded with ${CH}_{3} {SO}_{3}^{-}$ .Draw this system and write the chemistry that occurs in each part.

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01

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The system in the Figure 26-7 can be adapted in order to produce the strong acid eluent methane sulfonic acid. Here we will draw the system and write the chemistry that occurs in each part.

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Most popular questions from this chapter

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(a) For each sample, seawater is passed through the column for 17hours at $10 mL / \min$ . How much is the concentration of ${Fe}^{3 +}$ in the 10mLof ${NHO}_{3}$ eluate increased by this preconcentration procedure?

(b) What is the concentration of ${Fe}^{3 +}$ in the seawater when 57 nm ${Fe}^{3 +}$ is found in the nitric acid eluate?

(c) Reagent-grade concentrated nitric acid is 15.7 M and contains $鈮� 0.2 ppm$ iron. What would be the apparent concentration of Fe (nM) in a seawater blank if reagent-grade acid were used to prepare the 1.5M ${HNO}_{3}$ eluent?

(a) A particular solution in a particular capillary has an electroosmotic mobility of $1.3 脳 10^{- 8} m^{2} / (V 脳 s) atpH 2$ and 8.1 $10^{- 8} m^{2} / (V 脳 s)$ . How long will it take a neutral solute to travel 52 cm from the injector to the detector if 27 kV is applied across the 62-cm-long capillary tube at pH 2? At pH 12?(b) An analyte anion has an electrophoretic mobility of $- 1.6 脳 10^{- 8} m^{2} / (V 脳 s)$ How long will it take to reach the detector at pH 2?At pH 12?

(a) The interstitial volume, $V_{0}$ , in Figure 26-15 is the volume at which the curves rise vertically at the left. Find $V_{0}$ for the 25-nm-pore-size column. To the nearest order of magnitude, what is the smallest molecular mass of molecules excluded from this column? (b) What is the molecular mass of molecules eluted at 9.7 mL from the 12.5-nm column? (c) $V_{m}$ is the volume at which the curves drop vertically at the right. Find the largest molecular mass that can freely enter the 45-nm pores.

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