a 640 mL of 0.0280 M AGNO, from the solid reagent. Dissolve g AgNO, in enough water to give a final volume of b 2.60 L of 0.217 M HCI, starting with a 6.00 M solution of the reagent.

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Describe the preparation (answer A and B only)

a 640 mL of 0.0280 M AgNO, from the solid reagent.
Dissolve
g AgNO, in enough water to give a final volume of
mL.
b 2.60 L of 0.217 M HCI, starting with a 6.00 M solution of the reagent.
Take
mL of the 6.00M HCl and dilute to
L with water.
c 640 mL of a solution that is 0.0280 M in K, starting with solid K, Fe (CN).-
Dissolve
g K4 Fe (CN), in enough water to give a final volume of
mL.
d 640 mL of 2.00% (w/v) aqueous BaCl, from a 0.400 M BaCl2 solution.
Take
mL of the 0.400 M BaCl, solution and dilute to
mL with water.
e 6.00 L of 0.120 M HC104 from the commercial reagent [71.0% HCIO4 (w/w), sp gr 1.67].
Take
mL of the concentrated reagent and dilute to
L with water.
f 6.00 L of a solution that is 25.0 ppm in Na, starting with solid Naz SO4.
Dissolve
g Naz SO4 in enough water to give a final volume of
L.
Transcribed Image Text:a 640 mL of 0.0280 M AgNO, from the solid reagent. Dissolve g AgNO, in enough water to give a final volume of mL. b 2.60 L of 0.217 M HCI, starting with a 6.00 M solution of the reagent. Take mL of the 6.00M HCl and dilute to L with water. c 640 mL of a solution that is 0.0280 M in K, starting with solid K, Fe (CN).- Dissolve g K4 Fe (CN), in enough water to give a final volume of mL. d 640 mL of 2.00% (w/v) aqueous BaCl, from a 0.400 M BaCl2 solution. Take mL of the 0.400 M BaCl, solution and dilute to mL with water. e 6.00 L of 0.120 M HC104 from the commercial reagent [71.0% HCIO4 (w/w), sp gr 1.67]. Take mL of the concentrated reagent and dilute to L with water. f 6.00 L of a solution that is 25.0 ppm in Na, starting with solid Naz SO4. Dissolve g Naz SO4 in enough water to give a final volume of L.
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