the acid ? The density is 1.3 g/ml and (FW of HNO, is 63.01 g/mol) to prepare 100 ml of 1 M of from a bottle of concentrated aqueous nitric acid, labeled (63.0 a. 6.25 mi b. 5.18 ml 6) systematic error can be corrected by: c. 3.48 ml d. 7.70 ml a-calibration b- statistical calculations c-relative error determination d-bias 7)The mass of AgNO (s)( Fw 1-69.87g/mol) needed to prepare 0.5 L of 0.0500 M AgNO, (169.87 g/mol) solution from the primary-standard-grade solid is a) 18.548g b) 16.987 g c) 16.139 g d) 4.24 g. e. 2.12 ml The ppm concentration of K ions (Atomic mass is 39.04 g/mol) in the solution that result from ding 20 ml of 0.1 M KNO, to 15.0 ml of 0.3 M KCI? 2230.85 ppm b-3214.2 ppm d- 2535.4 ppm c-7250.2 ppm 5543 grams of Na,CO, (MW-105.9 g/mole) are placed in a 500.0 ml. volumetric flask. A 25.00 aliquot of this solution is neutralized with 17.55 mL of HCL. What is the molarity of the HCI rion (show your work)?
the acid ? The density is 1.3 g/ml and (FW of HNO, is 63.01 g/mol) to prepare 100 ml of 1 M of from a bottle of concentrated aqueous nitric acid, labeled (63.0 a. 6.25 mi b. 5.18 ml 6) systematic error can be corrected by: c. 3.48 ml d. 7.70 ml a-calibration b- statistical calculations c-relative error determination d-bias 7)The mass of AgNO (s)( Fw 1-69.87g/mol) needed to prepare 0.5 L of 0.0500 M AgNO, (169.87 g/mol) solution from the primary-standard-grade solid is a) 18.548g b) 16.987 g c) 16.139 g d) 4.24 g. e. 2.12 ml The ppm concentration of K ions (Atomic mass is 39.04 g/mol) in the solution that result from ding 20 ml of 0.1 M KNO, to 15.0 ml of 0.3 M KCI? 2230.85 ppm b-3214.2 ppm d- 2535.4 ppm c-7250.2 ppm 5543 grams of Na,CO, (MW-105.9 g/mole) are placed in a 500.0 ml. volumetric flask. A 25.00 aliquot of this solution is neutralized with 17.55 mL of HCL. What is the molarity of the HCI rion (show your work)?
Chapter3: Mechanisms
Section: Chapter Questions
Problem 143EQ
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