
NEED ANSWERS ASAP Concentration (M) of starting solution % Transmittance, %T, (Blank) % T (15-mL 0.024...
The following information is given : Concentration (M) of starting solution: 0.024 % Transmittance, %T, (Blank) : 98.6 % T (15-mL 0.024 M Cu2+ + 7 mL conc NH3 diluted with distilled H2O to 100 mL total volume):63.9 % T (15-mL Unknown Cu2+ solution + 7 mL conc NH3 diluted with distilled H2O to 100 mL total volume) :38.6 I need to find the following: Absorbance (blank) : Absorbance (15- mL Dilution ) : Ratio M/A (use 0.024 M as...
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Concentration (M) of starting solution .024 1st Reading 2nd Reading Abs (15-mL .024 M Cu2+ + 7 mL conc NH3 diluted with distilled H2O to 100 mL total volume) 0.861 0.941 Abs (5-mL .024 M Cu2+ + 7 mL conc NH3 diluted with distilled H2O to 100 mL total volume) 0.541 0.518 Abs (15-mL Unknown Cu2+ solution + 7 mL conc NHz diluted with distilled...
LAB DATA The lab data shown below reflects what you would have collected during lab on campus. Use this "virtual lab data" to complete the calculations in this lab. Concentration (M) of starting solution .024 1st Reading 2nd Reading Abs (15-mL .024 M Cu2+ + 7 mL conc NH, diluted with distilled H 0 to 100 mL total volume) 0.945 0.923 Abs (5-mL .024 M Cu2+ + 7 mL conc NH, diluted with distilled H,0 to 100 mL total volume)...
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More Information on submitting your Lab Report LAB DATA Concentration (M) of starting solution Transmittance, T. (Blank) T (15 . 0.034 MOP. 7 .com NH, diluted with distilled H 0 to 100 ml. volume) T(15 ml. Unknown CT solution + 7 ml. come NH, diluted with distilled H 0 to 100 ml. total volume) LAB CALCULATIONS Absorbance (15-ml. Dilution) Ratio M/A (use 0.004 M as the given M) for the 15-ml. Dilution Absorbance of Unknown (Is Dilution) Molarity...
Is your unknown more, less, or the same concentration as
the standard? Explain using %T and/or Absorbance.
LAB DATA Enter Lab Data before leaving lab 1 Click the Next Problem button. 2. Enter data in the 1" text box and click the Submit Data button. text boxes. Enter data in the dlick the Submit Data button. Concentration (M) of starting solution 0024 1st Reading 2nd Reading % Transmittance. %T . ( Blank ) 97.2 %T ( 15-mL 0.024 M Cu+7...
A dilution of a 1.0 M NaOH solution was carried out as follows: 16.0 mL of the 1.0 M NaOH soution was diluted with distilled water to a total volume of 289 mL. Calculate the molarity (mol/L) of the diluted solution of NaOH.
Beer's Law - Calculate the Transmittance percentage for each trial and find the unknown's concentration Mass of Penny - 3.085g Date on Penny - 1969 Concentration of Cu2+ solution: 0.3 M Volume of Standard Cu2+ (mL) Volume of 1M HNO3(mL) Cu2+ (M) Concentration % Transmittance Absorbance Test Tube 1 2.00 8.00 0.06 0.078 Test Tube 2 5.00 5.00 0.15 0.017 Test Tube 3 8.00 2.00 0.24 0.018 Standard X X 0.3 0.193 Unknown X X X X 0.252
Question 1 20 pts Please prepare 20 mL of 0.2 M NaOH, given a stock solution of 0.6 M NaOH. State the precise amount of the 0.6 M NaOH used and the amount of diluent (H2O) added Question 2 20 pts Please prepare 500 mL of a 1/100 dilution of serum from a tube with a 1/10O dilution of serum. Please state the volume of the 1/10 dilution of serum used and the volume of diluents (H2O) used 20 pts...
Use these 2 reactions to answer Question 4: 2Cu2+ + 4KI → 2CuI + I2 + 4K+ (rxn 1) I2 + 2Na2S2O3 → 2NaI + Na2S4O6 (rxn 2) For rxn 1, 10.0 mL of a Cu2+ solution of unknown concentration was placed in a 250 mL Erlenmeyer flask. An excess of KI solution was added. Indicator was added and the solution was diluted with H2O to a total volume of 75 mL. For rxn 2, the solution from rxn 1...
the molar absorptivity of the copper complex in chloroform at
436.0nm is 13,000 M-1 cm-1 which is useful
for the determination of Cu2+ concentrations as low as
10-6g/ml.
III. Interpretation of Results (a) Calibration curve Calculate the Cu2+ concentration of each standard solution in ug/mL (ug = 100 gram). Alternatively, ug/mL = ppm (part per million). Plot the net absorbance (= absorbance of standard - absorbance of blank) versus the concentration of each standard solution. sample volume 0 absorbance 0.061...