Homework Answers
Slope= (change in mV)/ (change in pH) ................from shatdard 1 and 2.
Slope = (300-17.7)/(6.940-1.672) mV/pH
= 53.59 mV/pH.
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A glass electrode is calibrated using two standards and the voltage of the electrode in each...
A glass electrode is calibrated using two standards and the voltage of the electrode in each...
A glass electrode is calibrated using two standards and the voltage of the electrode in each standard was measured. The voltage of an unknown solution was also measured. All measurements were conducted at 20o C. Using the data calculate the value of β for this electrode and give your answer rounded to two decimal places. Sample Name pH Value (unitless) Voltage (mV) Standard 1 1.672 + 300.0 Standard 2 6.940 + 17.7 Unknown + 140.
Calibration of a glass electrode gave a reading of 134.9 mV with a 0.05 m potassium...
Calibration of a glass electrode gave a reading of 134.9 mV with a 0.05 m potassium hydrogen phthalate buffer standard (pH = 4.015), and a reading of -163.2 mV with a 0.01 m borax buffer standard (pH = 9.139), both measured at 30°C. What is the observed slope (mV/PH unit) of the calibration curve? slope observed = mV/PH What is the theoretical slope at 30°C? slope theoretical = mV/pH What is B, the electromotive efficiency, to three significant figures? B...
(1) When calibrating a glass electrode, 0.025 M potassium dihydrogen phosphate/0.025 M disodium hydrogen phosphate buffer...
(1) When calibrating a glass electrode, 0.025 M potassium dihydrogen phosphate/0.025 M disodium hydrogen phosphate buffer (pH = 6.881) gave a reading of -18.3 mV at 20 °C and 0.050 M potassium hydrogen phthalate buffer (pH = 3.788) gave a reading of +146.3 mV. What is the pH of an unknown giving a reading of +50.0 mV? What is the slope of the calibration curve (mV/pH units) and what is the theoretical slope at 20 °C? Find the value of...
When the difference in pH across the membrane of a glass electrode at 25 degree C...
When the difference in pH across the membrane of a glass electrode at 25 degree C is 4.40 pH units, how much voltage is generated by the pH gradient? (F = 96485 C/mol; R = 8.3145 J/mol K) mV (three significant figures) (b) What would the voltage be for the same pH difference at 37 degree C? (F = 96485 C/mol; R = 8.3145 J/mol K) mv (three significant figures) When calibrating a glass electrode, 0.025 m potassium dihydrogen phosphate/0.025...
1A. A voltage of 2.35 V was measured using a Ag/AgCl reference electrode with saturated KCl....
1A. A voltage of 2.35 V was measured using a Ag/AgCl reference electrode with saturated KCl. What would this potential be if it were measured using a standard hydrogen electrode? 1B. What would the potential be if it were measured using a saturated calomel electrode? 2. At 25o C for an "ideal" pH electrode, what is the change in voltage between a pH 2.00 solution and a pH 7.00 solution? Place your answer in units of mV.
Partner's Name Instructor Procedure I, Voltaic Cell Zn/Zn2+ 1.0 M || Cu2+ 1.0 M/Cu In the...
Partner's Name Instructor Procedure I, Voltaic Cell Zn/Zn2+ 1.0 M || Cu2+ 1.0 M/Cu In the space below write the equations for the two half reactions and sum them appropriately to calculate the standard reaction potential for a 1.0 M voltaic cell. Show the overall net ionic equation for this reaction. 9pts.) Standard reaction potential Write the expression for Q for this redox reaction. (4 pes) In the space below show a calculation using the Nemst equation to determine the...
We consider two half cells: Half cell A comprises a platinum electrode immersed in an aqueous...
We consider two half
cells:
Half cell A comprises a platinum electrode immersed in an
aqueous solution containing Mn2+ (10 mM) and MnO4- (4
mM) ions at pH=4.
Half cell B is constructed with a silver electrode immersed in an
aqueous potassium chromate solution (8 mM) in the presence
of solid Ag2CrO4. The pH of this half cell B is pH=9.
Both half cells are connected with a salt bridge. The voltage of
the cell is measured at 25°C: it...
I need help with the problem in the last photo.. I thought I’d post my lab...
I need help with the problem in the last photo.. I thought I’d
post my lab explanation and data if that helps you get a better
understanding, but it’s just the question at the end. I know I need
to use the Henderson Hasselbach equation.. so... 4.70 = pKa + log(
[acetate-ion] / [acetic-ion] ) and solve for pKa, then Ka.. but how
do I find the concentrations to put in the log fraction?
Thanks, in advance!
Learning Objectives: 1....
please help answer question 4, a-f please using the data below from chart 1 objectives from...
please help answer question 4, a-f please
using the data below from chart 1
objectives from lab, thank you
DATA:CA y 3 Ay No3 Part I: Cell Potential of voltaic cells under standard conditions: cell CU CND2 #27 14.0m Give the half Half cell reaction at Combinations Oxidation Reduction E the anode and with [ion] takes place Theoretical takes place cathode. Write in M here here (V) above the arrow E c (V) if it is oxidation or reduction. |-0.340...
summatize the following info and break them into differeng key points. write them in yojr own...
summatize the following info and break them into differeng key points. write them in yojr own words
apartus
6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...
Calibration of a glass electrode gave a reading of 134.9 mV with a 0.05 m potassium hydrogen phthalate buffer standard (pH = 4.015), and a reading of -163.2 mV with a 0.01 m borax buffer standard (pH = 9.139), both measured at 30°C. What is the observed slope (mV/PH unit) of the calibration curve? slope observed = mV/PH What is the theoretical slope at 30°C? slope theoretical = mV/pH What is B, the electromotive efficiency, to three significant figures? B...
(1) When calibrating a glass electrode, 0.025 M potassium dihydrogen phosphate/0.025 M disodium hydrogen phosphate buffer (pH = 6.881) gave a reading of -18.3 mV at 20 °C and 0.050 M potassium hydrogen phthalate buffer (pH = 3.788) gave a reading of +146.3 mV. What is the pH of an unknown giving a reading of +50.0 mV? What is the slope of the calibration curve (mV/pH units) and what is the theoretical slope at 20 °C? Find the value of...
When the difference in pH across the membrane of a glass electrode at 25 degree C is 4.40 pH units, how much voltage is generated by the pH gradient? (F = 96485 C/mol; R = 8.3145 J/mol K) mV (three significant figures) (b) What would the voltage be for the same pH difference at 37 degree C? (F = 96485 C/mol; R = 8.3145 J/mol K) mv (three significant figures) When calibrating a glass electrode, 0.025 m potassium dihydrogen phosphate/0.025...
Partner's Name Instructor Procedure I, Voltaic Cell Zn/Zn2+ 1.0 M || Cu2+ 1.0 M/Cu In the space below write the equations for the two half reactions and sum them appropriately to calculate the standard reaction potential for a 1.0 M voltaic cell. Show the overall net ionic equation for this reaction. 9pts.) Standard reaction potential Write the expression for Q for this redox reaction. (4 pes) In the space below show a calculation using the Nemst equation to determine the...
We consider two half
cells:
Half cell A comprises a platinum electrode immersed in an
aqueous solution containing Mn2+ (10 mM) and MnO4- (4
mM) ions at pH=4.
Half cell B is constructed with a silver electrode immersed in an
aqueous potassium chromate solution (8 mM) in the presence
of solid Ag2CrO4. The pH of this half cell B is pH=9.
Both half cells are connected with a salt bridge. The voltage of
the cell is measured at 25°C: it...
I need help with the problem in the last photo.. I thought I’d
post my lab explanation and data if that helps you get a better
understanding, but it’s just the question at the end. I know I need
to use the Henderson Hasselbach equation.. so... 4.70 = pKa + log(
[acetate-ion] / [acetic-ion] ) and solve for pKa, then Ka.. but how
do I find the concentrations to put in the log fraction?
Thanks, in advance!
Learning Objectives: 1....
please help answer question 4, a-f please
using the data below from chart 1
objectives from lab, thank you
DATA:CA y 3 Ay No3 Part I: Cell Potential of voltaic cells under standard conditions: cell CU CND2 #27 14.0m Give the half Half cell reaction at Combinations Oxidation Reduction E the anode and with [ion] takes place Theoretical takes place cathode. Write in M here here (V) above the arrow E c (V) if it is oxidation or reduction. |-0.340...
summatize the following info and break them into differeng key points. write them in yojr own words
apartus
6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...
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