Look up the values of E° for the following half-cell reactions. Ag+ + e- - Ag AgBr + e- - Ag + Br- Describe how you would use these values to determine the solubility product (Ksp) of AgBr at 25.0°C. Step 1 of 4 Recall and write the equilibrium expression for the Ksp of AgBr. (Subscripts and superscripts that include letters must be enclosed in braces {}.) chemPad О Help Greek - Ksp = [Ag+]. [Br"] Ksp = [Ag+]. [Br"] K_{sp} = [Ag^{+}] . [Br^{-}] Correct. Step 2 of 4 Determine the net reaction that corresponds to this definition of Ksp: (Omit states-of-matter from your answer.) chemPad О Help Greek - In order to achieve this condition, we must invert the order of the --Select--- half-cell reaction, which can then be written as follows. (Omit states-of-matter from your answer.) chemPad О Help Greek -

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Chapter1: Chemical Foundations
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Look up the values of Eº for the following half-cell reactions.
Ag* + e¯ - Ag
AgBr + e¯ - Ag + Br-
Describe how you would use these values to determine the solubility product (Ksp) of AgBr at 25.0°C.
Step 1 of 4
Recall and write the equilibrium expression for the Ksp of AgBr. (Subscripts and superscripts that include letters must be enclosed in braces {}.)
chemPad
Help
Greek -
[Ag*]. [Br"]
Ksp
Ksp = [Ag+]. [Br*]
K_{sp} = [Ag^{+}] . [Br^{-}]
Correct.
Step 2 of 4
Determine the net reaction that corresponds to this definition of Ksp. (Omit states-of-matter from your answer.)
chemPad
O Help
Greek -
In order to achieve this condition, we must invert the order of the ---Select---v half-cell reaction, which can then be written as follows. (Omit states-of-matter from your answer.)
chemPad
Help
Greek -
Transcribed Image Text:Look up the values of Eº for the following half-cell reactions. Ag* + e¯ - Ag AgBr + e¯ - Ag + Br- Describe how you would use these values to determine the solubility product (Ksp) of AgBr at 25.0°C. Step 1 of 4 Recall and write the equilibrium expression for the Ksp of AgBr. (Subscripts and superscripts that include letters must be enclosed in braces {}.) chemPad Help Greek - [Ag*]. [Br"] Ksp Ksp = [Ag+]. [Br*] K_{sp} = [Ag^{+}] . [Br^{-}] Correct. Step 2 of 4 Determine the net reaction that corresponds to this definition of Ksp. (Omit states-of-matter from your answer.) chemPad O Help Greek - In order to achieve this condition, we must invert the order of the ---Select---v half-cell reaction, which can then be written as follows. (Omit states-of-matter from your answer.) chemPad Help Greek -
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