determine the concentration of glucose in the original glucose solution. report a relative standard deviation for...
determine the concentration of glucose in the original glucose solution. report a relative standard deviation for the original concentration
Glucose solution / mL: Tube 1: 0 mL Tube 2: 2 mL Tube 3: 4 mL Tube 4: 6 mL Tube 5: 8 mL Tube 6: 9.5 mL
Absorbance at 420 nm for each solution: Tube 1: 0.617 Tube 2: 0.578 Tube 3: 0.736 Tube 4: 0.653 Tube 5: 0.843 Tube 6: 0.895
Homework Answers
Glucose cannot be measured directly in a spectrophotometer, but can be measured indirectly by coupling its consumption to the production of NADPH
we know that
Beer's Law --> A = e.c.l
Where;
A = absorption,
e = specific extinction coefficient,
c = concentration,
l = path length --> be consider as 1 cm
the initial tube will have only NADPH and glucose = 0 mL
Extinction coeffecient of NADPH = 6.22
0.617 = 6.22 X c X 1
concentration = 0.099 mM
Now initially tube will have x mL of 0.099 mM of NADPH
Add Answer to:
determine the concentration of glucose in the original glucose
solution. report a relative standard deviation for...
Determine the equilibrium concentration of FeSCN2+ in each solution. (Page below are the initial concentrations of...
Determine the equilibrium concentration of FeSCN2+ in each
solution. (Page below are the initial concentrations of FE3+ and
scn- for each solution )
Secondly, use stoichiometry to determine equilibrium FE3+ and
SCN -. ( concentration used for FE and KSCN are both 0.002M )
the absorbance of each standard in the same test tube used to blank the spectrophoto standards from least to most concentrated, rinsing with a small amount of the next sta tilling the test tube. Record absorbance...
4. (a) Determine the experimental concentration of protein in the unknown solution in mg/mL using the...
4. (a) Determine the experimental concentration of protein in the unknown solution in mg/mL using the Part II Data Table and the equation on page 2 for the absorbance assay at 280 nm. Hint: Convert the molar concentration (M or moles/liter) of BSA from absorbance assay at 280 nm method to mg/mL, assume that the molecular weight of BSA = 66.5 kDa [7 points 6500 g/mol Post-lab 10 Report Form: Determination the Concentration of a Protein You must show your...
If the original sodium tartrate solution had a concentration of 1.00 M instead of 0.100 M,...
If the original sodium tartrate solution had a concentration of
1.00 M instead of 0.100 M, what would the concentration of copper
be in a solution created by combining 10 mL of it with 10 mL of the
0.100M copper (II)sulfate solution. Use the Ksp you found in the
experiment.
For the ionic solid copper tartrate, the solubility equilibrium
reaction is: CuC4H4O6 (s) Cu2+ (aq) + C4H4O6 2- (aq) Just like any
equilibrium reaction, an equilibrium expression can be created....
Preparing Dilute Solutions C1 V1 C2 V2 C1 is the concentration of the original concentrated solution...
Preparing Dilute Solutions C1 V1 C2 V2 C1 is the concentration of the original concentrated solution V1 is the volume of the original concentrated solution C2 is the concentration of the final dilute solution V2 is the volume of the final dilute solution A common solution unit is mol/L which can also be written as M. A solution that is 0.1 M NAOH has 0.1 moles Na OH for every liter of solution. Beer's Law Calibration Curve A colored solution...
plote a graph Lab Exercise 4B Example: Calculation of C, for Tube #2 ? Concentration of...
plote a graph
Lab Exercise 4B Example: Calculation of C, for Tube #2 ? Concentration of maltese solution (C) 2.5mg/ml. Volume of standard solution (V.) - 200 ml 0.2 ml Concentration of maltose solution after dilution (C) Volume of maltose solution after dilution (V.) = 100 ml -0.05 mg/ml C 2.5 mg/ml X 0.2 100 ml Absorbund at 540 Tube 0.0 b. 554 HE Volume of Volume of water concentration added to make standard maltose of maltose number solution (L)...
You have a standard stock containing (1.67 mM glucose + 1.67 mM fructose). Calculate the glucose...
You
have a standard stock containing (1.67 mM glucose + 1.67 mM
fructose).
Calculate the glucose concentration and fructose
concentration. Show work.
Fructose Tube Gle-Fru Water DNS Total Glucose reagent volume l conc (μM) | conc (μM) Stock solutionm 1 mL 1 0mL 2 0.25 mL 2.75 mL ImL 4 mL 3 0.5 mL 2.5 mL1 mL4 mL 4 0.75 mL 2.25 mL 1 mL 4 m 2 mL1 mL 4 mL 1.5 mL I mL 4 mL 1 mL...
I have questions 1-5. I just need help with number 6. Thank you! Assume that the...
I have questions 1-5. I just need help with number 6. Thank
you!
Assume that the concentration of the glucose standard sample is 1.200 mg/ml. Use the following results to perform your calculations: 1. Calculate the concentration of glucose in tubes 1 through 5 (in mu g/ml). 2. Make graphs of A_ vs. concentration and A_ vs. amount (in mu g). It is suggested that you use the program module Excel in Microsoft Office. Instructions are provided in Statistical Calculations...
Table A. Preparation of Standard solutions of FeSCN2+ 1.0 M HNO3 0.002 M 0.200 M Solution...
Table A. Preparation of Standard solutions of FeSCN2+ 1.0 M HNO3 0.002 M 0.200 M Solution KSCN (mL) Fe(NO3)3 (mL) 0.5 5 [FeSCN2+] (mol/L)* 1 4.0x10^-5 Add 1.0 M 2 1.0 5 8.0x10^-5 HNO3 3 1.5 5 1.2x10^-10 4 2.0 5 1.6x10-4 to each to adjust the volume to 25 mL. 5 2.5 5 2.0x10-4 * Calculate the concentrations of FeSCN2+ in each beaker, assuming that all SCN-ions exist as FeSCN2+. In other words, [FeSCN2+] (in Soln 1) = [SCN-]...
Question 4 (2 points) A working standard 1 is prepared by taking 24.00 mL of a...
Question 4 (2 points) A working standard 1 is prepared by taking 24.00 mL of a 500.0 ppm stock solution and diluting it to a final volume of 360.0 mL. Working standard 2 is prepared by taking 3.00 mL of working standard 1 and diluting it to a final volume of 250.0 mL. Calculate the ppm concentration of the working standard 2. Provide your answer to three places after the decimal and without units. Your Answer: Answer Question 5 (2...
4) An unknown concentration of NiSO4 solution is to be determined by colorimetric analysis using a...
4) An unknown concentration of NiSO4 solution is to be determined by colorimetric analysis using a spectrophotometer. The standard solutions are prepared as the following: 2.00 mL (the same procedures for 3.0 mL, 4.00 mL, 6.00 mL, 7.00 mL) of the stock solution of 1.00 M NİSO4 is transferred into a 25-mL volumen flask and diluted by adding distilled water to the mark line. The spectrophotometer is calibrated at the wavelength of 635 nm. The absorbance (A) readings and the...
Determine the equilibrium concentration of FeSCN2+ in each
solution. (Page below are the initial concentrations of FE3+ and
scn- for each solution )
Secondly, use stoichiometry to determine equilibrium FE3+ and
SCN -. ( concentration used for FE and KSCN are both 0.002M )
the absorbance of each standard in the same test tube used to blank the spectrophoto standards from least to most concentrated, rinsing with a small amount of the next sta tilling the test tube. Record absorbance...
4. (a) Determine the experimental concentration of protein in the unknown solution in mg/mL using the Part II Data Table and the equation on page 2 for the absorbance assay at 280 nm. Hint: Convert the molar concentration (M or moles/liter) of BSA from absorbance assay at 280 nm method to mg/mL, assume that the molecular weight of BSA = 66.5 kDa [7 points 6500 g/mol Post-lab 10 Report Form: Determination the Concentration of a Protein You must show your...
If the original sodium tartrate solution had a concentration of
1.00 M instead of 0.100 M, what would the concentration of copper
be in a solution created by combining 10 mL of it with 10 mL of the
0.100M copper (II)sulfate solution. Use the Ksp you found in the
experiment.
For the ionic solid copper tartrate, the solubility equilibrium
reaction is: CuC4H4O6 (s) Cu2+ (aq) + C4H4O6 2- (aq) Just like any
equilibrium reaction, an equilibrium expression can be created....
Preparing Dilute Solutions C1 V1 C2 V2 C1 is the concentration of the original concentrated solution V1 is the volume of the original concentrated solution C2 is the concentration of the final dilute solution V2 is the volume of the final dilute solution A common solution unit is mol/L which can also be written as M. A solution that is 0.1 M NAOH has 0.1 moles Na OH for every liter of solution. Beer's Law Calibration Curve A colored solution...
plote a graph
Lab Exercise 4B Example: Calculation of C, for Tube #2 ? Concentration of maltese solution (C) 2.5mg/ml. Volume of standard solution (V.) - 200 ml 0.2 ml Concentration of maltose solution after dilution (C) Volume of maltose solution after dilution (V.) = 100 ml -0.05 mg/ml C 2.5 mg/ml X 0.2 100 ml Absorbund at 540 Tube 0.0 b. 554 HE Volume of Volume of water concentration added to make standard maltose of maltose number solution (L)...
You
have a standard stock containing (1.67 mM glucose + 1.67 mM
fructose).
Calculate the glucose concentration and fructose
concentration. Show work.
Fructose Tube Gle-Fru Water DNS Total Glucose reagent volume l conc (μM) | conc (μM) Stock solutionm 1 mL 1 0mL 2 0.25 mL 2.75 mL ImL 4 mL 3 0.5 mL 2.5 mL1 mL4 mL 4 0.75 mL 2.25 mL 1 mL 4 m 2 mL1 mL 4 mL 1.5 mL I mL 4 mL 1 mL...
I have questions 1-5. I just need help with number 6. Thank
you!
Assume that the concentration of the glucose standard sample is 1.200 mg/ml. Use the following results to perform your calculations: 1. Calculate the concentration of glucose in tubes 1 through 5 (in mu g/ml). 2. Make graphs of A_ vs. concentration and A_ vs. amount (in mu g). It is suggested that you use the program module Excel in Microsoft Office. Instructions are provided in Statistical Calculations...
Table A. Preparation of Standard solutions of FeSCN2+ 1.0 M HNO3 0.002 M 0.200 M Solution KSCN (mL) Fe(NO3)3 (mL) 0.5 5 [FeSCN2+] (mol/L)* 1 4.0x10^-5 Add 1.0 M 2 1.0 5 8.0x10^-5 HNO3 3 1.5 5 1.2x10^-10 4 2.0 5 1.6x10-4 to each to adjust the volume to 25 mL. 5 2.5 5 2.0x10-4 * Calculate the concentrations of FeSCN2+ in each beaker, assuming that all SCN-ions exist as FeSCN2+. In other words, [FeSCN2+] (in Soln 1) = [SCN-]...
Question 4 (2 points) A working standard 1 is prepared by taking 24.00 mL of a 500.0 ppm stock solution and diluting it to a final volume of 360.0 mL. Working standard 2 is prepared by taking 3.00 mL of working standard 1 and diluting it to a final volume of 250.0 mL. Calculate the ppm concentration of the working standard 2. Provide your answer to three places after the decimal and without units. Your Answer: Answer Question 5 (2...
4) An unknown concentration of NiSO4 solution is to be determined by colorimetric analysis using a spectrophotometer. The standard solutions are prepared as the following: 2.00 mL (the same procedures for 3.0 mL, 4.00 mL, 6.00 mL, 7.00 mL) of the stock solution of 1.00 M NİSO4 is transferred into a 25-mL volumen flask and diluted by adding distilled water to the mark line. The spectrophotometer is calibrated at the wavelength of 635 nm. The absorbance (A) readings and the...
Most questions answered within 3 hours.
-
Identify 3 research scenarios that might provide a low,
medium, and high degree of variability in...
asked 1 minute ago -
how
does gravity affect the trajectory of projectile? what would be the
shape of the trajactory...
asked 51 minutes ago -
Two small plastic spheres are given positive electrical charges.
When they are a distance of 15.4...
asked 58 minutes ago -
An acidic solution containing gold ions is
electrolyzed, producing gaseous oxygen (from water) at the anode...
asked 1 hour ago -
Assume that the population of Mexico is 128
million and that the population increases 1.01
percentannually....
asked 2 hours ago -
Can someone please help me add appropriate descriptive
comments to each line of code in the...
asked 2 hours ago -
Romeo wishes to throw a bouquet of flowers to Juliet, who is on
a second-story balcony,...
asked 3 hours ago -
Why is QE a controversial monetary policy tool.
A. It may lead to excessive inflation.B. By...
asked 3 hours ago -
Principles of Programming midterm study guide help!
1.)
______ Which of the following would reference the...
asked 3 hours ago -
A finite potential well has depth U0 = 2.78 eV . What is the
penetration distance...
asked 3 hours ago -
1. The bus bars of a power station are in two sections A and B
separated...
asked 3 hours ago -
Fiscal policy is the deliberate manipulation of taxes and
government spending to alter GDP, employment, inflation...
asked 4 hours ago