molarconc. of KHP
Molar wt. of KHP=204.228 gm.
conc. of KHP= wt/molecular wt.
0.8/204.228=0.003917 mol.
0.8 g of dried KHP into each of three 250 ml Erlenmeyer flasks. Record the exact...
Materials: NaOH MW = 40 g/mL, KHP - potassium hydrogen phthalate, KHC8H404, MW = 204.23 g/mol. Acetic acid, HC2H302, MW = 60.05 g/mol Part 1: Standardization of NaOH Assume 0.951 g of KHP is weighed and transferred to a 250 mL Erlenmeyer flask. Approximately 50 ml water is added to dissolve the KHP. Note that the exact volume of water is not important because you only need to know the exact number of moles of KHP that will react with...
Materials: NaOH MW = 40 g/mL, KHP - potassium hydrogen phthalate, KHC8H404, MW = 204.23 g/mol. Acetic acid, HC2H302, MW = 60.05 g/mol Part 1: Standardization of NaOH Assume 0.951 g of KHP is weighed and transferred to a 250 mL Erlenmeyer flask. Approximately 50 ml water is added to dissolve the KHP. Note that the exact volume of water is not important because you only need to know the exact number of moles of KHP that will react with...
please write out calculations for each box missing an answer
data the experiment Record For the lab report, attach this data sheet (signed by your TA) to your calculations page. REPORT ALL VALUES TO AT LEAST THREE SIGNIFICANT FIGURES. READ YOUR BURETTE TO THE NEAREST 0.05 mL increment. for on this sheet. Do your calculations on a separate piece of paper. Part One-Standardization of a NaOH solution of approximately 0.1 M. Trial 1 | Trial 2 | Trial 3 Mass...
Prepare 250 mL of-0.02 M K2Cr2O7 by transferring an accurately weighed amount of the dried dichromate into a 250 mL volumetric flask and diluting to the mark. Since this is a volumetric preparation, the exact concentration of the titrant will be based on the analytical weight of the potassium dichromate used to prepare the solution. . Analysis of the Unknown FeO Sample Accurately weigh four (4)-0.3 g samples of the dried unknown into four 400 or 600 mL beakers. Add...
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Materials: NaOH MW = 40 g/mL, KHP - potassium hydrogen phthalate, KHC2H4O4, MW = 204.23 g/mol. Acetic acid, HC2H302, MW = 60.05 g/mol Part 1: Standardization of NaOH Assume 0.951 g of KHP is weighed and transferred to a 250 mL Erlenmeyer flask. Approximately 50 mL water is added to dissolve the KHP. Note that the exact volume of water is not important because you only need to know the...
In the laboratory, a student adds 19.3 g of potassium acetate to a 125 mL volumetric flask and adds water to the mark on the neck of the flask. Calculate the concentration in mol/L) of potassium acetate, the potassium ion and the acetate ion in the solution [KCH3COO) - [K] [CH3C00] = 1 A student wishes to prepare 300-ml of a 0.236 M iron(III) acetate solution using solid iron(III) acetate, a 300-ml volumetric flask, and deionized water (a) How many...
A student weighs out 14.6 g of AlBrz, transfers it to a 300 mL volumetric flask, adds enough water to dissolve the solid and then adds water to the 300 mL mark on the neck of the flask. Calculate the concentration (in molarity units) of aluminum bromide in the resulting solution? Calculate the mass, in grams of sodium iodide that must be added to a 250 mL volumetric flask in order to prepare 250 mL of a 0.138 M aqueous...
please help me speciqlly with 11. 12. 13.
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Experiment 7, Analysis of KHP by titration with NaOH Wright College, Department of Physical Science and Engineering In this experiment, you will determine the amount (percent) of potassium hydrogen phthalate (KHP) that is in an impure sample. You will determine the percent of KHP via titration using NOH with known inolarity. The reaction will follow, KHCgH00, (aq) + NaOH (aq) ---------> KNaCHO, (aq) + H20 (I) At the end point, the...
Procedures Place two 150 mL Erlenmeyer flasks from the Containers shelf on the workbench. Double-click on the flasks to label one flask “A” and the other “B”. Obtain a 10 mL graduated cylinder and a 50 mL graduated cylinder from the Containers shelf. Place two constant temperature baths from the Instruments shelf onto the workbench. Set the temperature on each bath to 21.5 °C. The contents of each flask will vary with each trial as indicated in the table below....
Procedure 1. Arrange the burette and other equipment as shown in Figure 1. Use a 250-ml Erlenmeyer flask for the titration 2. Fill the burette with NaOH solution using a funnel. (Wear goggles and gloves!) Record the concentration (molarity) of the base in the Data Table on the Worksheet. 3. Measure out 100 mL of flat Mountain Dew in a graduated cylinder and transfer it to the 250-ml Erlenmeyer flask. (If you will be using a magnetic stirrer, place a...