Atomic emission spectroscopy and the method of standard addition are used to determine the Nat co...
Question 4 of 4 > Atomic emission spectroscopy and the method of standard addition are used to determine the Nat concentration and its uncertainty in an unknown sample. Increasing amounts of a 1.75 pg/mL standard Na' solution are added to a series of volumetric flasks containing 15.00 mL of the unknown solution. The volumetric flasks are then diluted to a final volume of 200.0 mL. Atomic emission spectroscopy is then used to measure the emission intensity of each solution Final...
Atomic absorption spectroscopy was used with the method of standard additions to determine the concentration of cadmium in a sample of an industrial waste stream. For the addition, 10.0 μL of a 1000.0 μg/mL Cd standard was added to 10.0 mL of the unknown solution. The results obtained are shown in the table. Absorbance Reagent blank 0.023 Sample 0.498 Sample plus addition 0.714 What is the concentration of the cadmium in the waste stream sample?
Atomic absorption spectroscopy was used with the method of standard additions to determine the concentration of cadmium in a sample of an industrial waste stream. For the addition, 10.0 μL of a 1000.0 μg/mL Cd standard was added to 10.0 mL of the unknown solution. The results obtained are shown in the table. Absorbance Reagent blank 0.024 Sample 0.395 Sample plus addition 0.859 What is the concentration of the cadmium in the waste stream sample? c= μg/mL Later, the analyst...
Atomic absorption spectroscopy was used with the method of standard additions to determine the concentration of cadmium in a sample of an industrial waste stream. For the addition, 10.010.0 μL of a 1000.0 μg/mL CdCd standard was added to 10.0 mL of the unknown solution. The results obtained are shown in the table. Reagent blank 0.023 Sample 0.342 Sample plus addition 0.749 What is the concentration of the cadmium in the waste stream sample? Later, the analyst learned that the...
Clearly, the answer is 220ppm. However, I need the steps leading to it. 25 mL of a serum sample is to be analyzed by atomic emission spectroscopy for silver (Ag) metal. After thorough mixing, a student transferred 2.5 mL of this serum sample to a 100 mL volumetric flask followed by the addition of 10 mL 0.5 M sulfuric acid to the sample. He then diluted it to volume in the volumetric flask with deionized water. After setting up his...
A standard solution with a concentration of 12.5 ppm gave a fluorescence emission intensity of 5.227 x 104 counts at 457 nm. An unknown sample was diltued by placing 5 mL of the sample into a 250 mL volumetric flask and diluted to the mark. The resulting solution gave an emission intensity of 3.921 x 104 counts at 457 nm. Determine the concentration of analyte in the unknown sample in ppm.
Atomic absorption spectroscopy was used with the method of standard additions to determine the concentration of cadmium in a sample of an industrial waste stream. For the addition, 10.0 L of a 1000.0 ug/mL Cd standard was added to 10.0 mL of solution. The following data were obtained Absorbance of reagent blank 0.042 Absorbance of sample 0.377 Absorbance of sample plus addition 0.762 What was the concentration of the cadmium in the waste stream sample? Number 0.4 ug mL Later,...
Atomic absorption spectroscopy was used with the method of standard additions to determine the concentration of cadmium in a sample of an industrial waste stream. For the addition, 10.0 L of a 1000.0 mL Cd standard was added to 10.0 mL of solution. The following data were obtained: sorbance of reagent blank- 0.029 Absorbance of sample 0.464 Absorbance of sample plus addition 0.863 What was the concentration of the cadmium in the waste stream sample? Number 1.09x 10 ug/mL Later,...
Co(ll) was used as an internal standard to analyze a sample of Ti(IV) with atomic absorption spectroscopy (AAS). A standard mixture containing 1.90 g Co/mL and 1.53 /g Ti/mL measured by AAS produced a signal-to-signal ratio of 2.04 Ti: 1.00 Co A mixture was prepared by combining 4.50 mL of a Ti(IV) solution of unknown concentration with 3.50 mL of a 14.4 ug/mL solution of Co(l1). The absorbance of the mixture at the Ti(IV) wavelength was 0.100 and the absorbance...
Co(II) was used as an internal standard to analyze a sample of Ti(IV) with atomic absorption spectroscopy (AAS). A standard mixture containing 1.32 j/g Co/mL and 1.54 [jg Ti/mL measured by AAS produced a signal-to-signal ratio of 1.78 Ti: 1.00 Co. A mixture was prepared by combining 5.00 mL of a Ti(IV) solution of unknown concentration with 3.50 mL of a 11.7 jug/mL solution of Co(ll). The absorbance of the mixture at the Ti(IV) wavelength was 0.149 and the absorbance...