Need solution of all parts urgently Given: A magnesium hydroxide solution isprepared by adding 12.00 g of magnesiumhydroxide to a volumetric flask and bringingthe final volume to 1.15 L by adding waterbuffered at a pH of 7.0.Required:A. [Molar] concentration of magnesium inthis solution. Use pksp = 11.25 to find KspB. Repeat Part A, except, use a solution pHof 12. You do not need to repeat the partsof the problem that are not affected by thechange in pH.C. Compare the two results and theconditions that produced them. Based onthis comparison describe a water treatmentapproach that could be used to removeMg2+ from water.Assumption: The temperature isSimplification: Neglect ionic25°C.strength.Hint: Relationship between [H*] and [OH"]:H20 <--> H* + OH"; [H*][OH¯] = Kw = 1014 M2 (25°C)

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Answered: Given: A magnesium hydroxide solution…

Given: A magnesium hydroxide solution is prepared by adding 12.00 g of magnesium hydroxide to a volumetric flask and bringing the final volume to 1.15 L by adding water buffered at a pH of 7.0.

Chemistry: Principles and Practice

3rd Edition

ISBN:9780534420123

Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer

Publisher:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer

Chapter16: Reactions Between Acids And Bases

Section: Chapter Questions

Problem 16.36QE

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Need solution of all parts urgently

Given: A magnesium hydroxide solution is
prepared by adding 12.00 g of magnesium
hydroxide to a volumetric flask and bringing
the final volume to 1.15 L by adding water
buffered at a pH of 7.0.
Required:
A. [Molar] concentration of magnesium in
this solution. Use pksp = 11.25 to find Ksp
B. Repeat Part A, except, use a solution pH
of 12. You do not need to repeat the parts
of the problem that are not affected by the
change in pH.
C. Compare the two results and the
conditions that produced them. Based on
this comparison describe a water treatment
approach that could be used to remove
Mg2+ from water.
Assumption: The temperature is
Simplification: Neglect ionic
25°C.
strength.
Hint: Relationship between [H*] and [OH"]:
H20 <--> H* + OH"; [H*][OH¯] = Kw = 10
14 M2 (25°C)

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