Procedurei.Watch the Introductory Video and Support Information on the upper left to learn how touse this virtual lab.ii.Place a bottle of 0.1 M NaCl solution, the unknown AgNO, solution, a 250 mL Erlenmeyerflask, a 10 mL pipette, and a burette (in Glassware>Other) on the workbench. If thebench is said to be too full, set the items along the right side the bench to save space.Record the volume of the original unknown AGNO, solution in the Data sheet.Workbench 1Unknown AgNO52.500 ml. @ 25.0°C0.1M NaCI100.00 ml. @ 25.0°C250 mL Flask0.0000 ml @ 25.0C10 ml. Pipette0.0000 mL @ 25.0°C50 mL. Burette0.0000 ml. @ 25.0Cii.Withdraw 10 mL of the unknown AgNO3 solution into the pipette and transfer the solutioninto the empty Erlenmeyer flask.Deliver 1 mL of the 0.1 M NaCl solution from the burette into the 10 mL unknown AGNO,solution. Pay attention to mass of AgCI displayed in the information windowTransfer 50 mL of 0.1 M NaCl solution into the burette.iv.V.InformationName: 250 mL FlaskVolume: 11.007 mlSpecies (s)ABCIgramsJ001433210 ml Pipette0000 mle 25.0rdnknown AgNO,n s00 ml e 25.0°CTemperature: 25.00°C250dgSig Fig RealisticPrecisept: 7.00Pour oFrom 50 ml. Burette to 250 mL Flask1.00 mL transferred.250 mL Flask0.1M NaCI11.007 ml@ 25.0°C50.000 ml.@ 25.0°C vi.Repeat addition of 1 mL of the 0.1 M NaCl solution from the burette into the unknownsolution until the mass of AgCl doesn't change any more. Record the mass of theprecipitate AgCl on the Data Sheet.Data SheetVolume of the original unknown AGNO3 solution =mLMass of AgCl (s) =,Mole of AgCl =(mole = mass /molar mass)Calculate mole of AGNO3 in the 10 mL unknown solution based on the following reactionequation:NaCliag) + AGNO3(aq) → NANO3(aq) + AgCls)Mole of AGNO, in the 10 mL unknown solution =use the coefficient ratio)_(hint,Mass of AGNO3 in the 10 mL unknown solution =(mass = mole x molar mass)Calculate mass of AGNO, in the original unknown solution as follows:Mass of AGNO, in the original unknown solution= Mass of AGNO, in the 10 mL unknown solution xvolume of the unknown AGNO3 solution in ml.10 ml

Answered: Image /qna-images/answer/6e6e7efe-1ad3-4ba1-9b8f-e9dd74d4f4a4.jpg

use this virtual lab. i. Place a bottle of 0.1 M NaCl solution, the unknown AgNO, solution, a 250 mL Erlenmeyer flask, a 10 mL pipette, and a burette (in Glassware-→Other) on the workbench. If the bench is said to be too full, set the items along the right side the bench to save space. Record the volume of the original unknown AGNO, solution in the Data sheet. Workbench 1

use this virtual lab. i. Place a bottle of 0.1 M NaCl solution, the unknown AgNO, solution, a 250 mL Erlenmeyer flask, a 10 mL pipette, and a burette (in Glassware-→Other) on the workbench. If the bench is said to be too full, set the items along the right side the bench to save space. Record the volume of the original unknown AGNO, solution in the Data sheet. Workbench 1

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

In this experiment you will use 5.20 g of Ph3P+CH2CO2Et Br–. How many millimoles is this?
There's 1 drink (and you are asked to determine the glucose concentration in the drink in the units of g/100mL. (Why these units? Well, once you have the concentrations in g/100mL you will be able to compare your values with the nutritional values given on the drink bottles’ labels). The sample of the drink was diluted 1/100 (i.e. by a factor of 100). This was an essential step in the method because, without it, the machine used to analyse the glucose concentration (spectrophotometer) would have given an error as the concentration would have been too high for accurate detection. What this means for you is that the dilution factor will need to be taken into consideration in your calculations (remember the aim is to calculate the concentration in the original drink and not in the diluted drink). You measured the concentration of their diluted drink using the spectrophotometer and their results were provided to them in the units mM (millimolar). Glucose Concentration in mM of drink =…
Please fill in blanks as shown on problem!!
An HPLC method was developed for the separation and determination of ibuprofen in blood samples. A 3.00 mL blood sample dissolved in 70.00 mL solvent was prepared and 10.0 mL was injected into the HPLC. Standard ibuprofen solutions were also run.Calculate the ibuprofen present in the 3.00 mL blood sample The following data were obtained. Table po itoo: Ibuprofen concentration, mg/ml0.50 1.0 2.0 3.0 Blood sample Peak area (Right column)5.29.617.419.911.4
Volume of the original unknown AGNO3 solution =. mL Mass of AGCI (s) = Mole of AgCl = (mole = mass /molar mass) Calculate mole of AGNO, in the 10 mL unknown solution based on the following reaction equation: NaCl) + AGNO(a0) → NANOS(a) + AgCla) Mole of AGNO, in the 10 mL unknown solution = use the coefficient ratio) _(hint, Mass of AGNO, in the 10 mL unknown solution =_ (mass = mole x molar mass) Calculate mass of AGNO, in the original unknown solution as follows: Mass of AGNO, in the original unknown solution volume of the unknown AgN03 solution in mL = Mass of AGNO, in the 10 mL unknown solution x 10 mL
Calculate the concentration (Mdil) of potassium permanganate (KMnO4) when 600 mL (Vconc) of the potassium permanganate solution is added to 400 mL of water. Note: first add the potassium permanganate solution (choose dropper) in the absence of water, move the sensor over the solution, and determine the concentration of the solution prior to adding water (Mconc). Knowing these three pieces of data, you can now calculate (Mail), and enter this calculated number as your answer. You can also confirm your answer by adding 400 mL of water to your 600 mL of potassium permanganate solution and checking the concentration with the sensor (NOTE: the sensor concentration will likely be slightly off the calculated number since it's difficult to add exact volumes in the simulator). Please report your numerical answer only with three significant figures and NO units (eg., 1.23). Mdildil MconcVconc A R
Transfer 0.5 mL phenolphthalein to a flask 25 mL KHP. Then transfer 13.2mL NaOH in the KHP that make it be pink. As the picture shows. Now, show a complete calculation for the concentration of the sodium hydroxide solution.
Extraction Pre-Lab Question 14 Status: Not yet answered | Points possible: 1.00 Type answer: Suppose you are working with a NaOH stock solution but you need a solution with a lower concentration for your experiment. Calculate the volume (in mL) of the 1.410 M stock NaOH solution needed to prepare 250.0 mL of 0.1273 M dilute NaOH solution. here to search 2 F12 P Cla Hon
Calculate the solubility of BaSO4 in water at 25°C. You'll find Ksp data in the ALEKS Data tab. Round your answer to 2 significant digits.
Answer provided: 33.8-ppm K^+1 Please show your complete solution and write your answer clearly and readable. Thank you.
Please need help with this first question , not sure of the change in temperature
There's 1 drink (and you are asked to determine the glucose concentration in the drink in the units of g/100mL. (Why these units? Well, once you have the concentrations in g/100mL you will be able to compare your values with the nutritional values given on the drink bottles’ labels). The sample of the drink was diluted 1/100 (i.e. by a factor of 100). This was an essential step in the method because, without it, the machine used to analyse the glucose concentration (spectrophotometer) would have given an error as the concentration would have been too high for accurate detection. What this means for you is that the dilution factor will need to be taken into consideration in your calculations (remember the aim is to calculate the concentration in the original drink and not in the diluted drink). You measured the concentration of their diluted drink using the spectrophotometer and their results were provided to them in the units mM (millimolar). Glucose Concentration in mM of drink =…