A 0.1M copper(II) chloride solution has a 40% transmittance. If a 0.8M copper (II) chloride solution...

Part 1) Obtain      copper strip, 5mL of 0.1M copper(II)sulfate, iron strip, 5mL of 0.1M iron(II)sulfate,...

Part 1) Obtain      copper strip, 5mL of 0.1M copper(II)sulfate, iron strip, 5mL of 0.1M iron(II)sulfate, lead strip, 5mL of lead(II)nitrate, zinc strip, 5mL of zinc(II)sulfate and 10mL of potassium nitrate for salt bridge. Write the standard reduction potential for Cu+2/Cu, Fe+2/Fe, Pb+2/Pb, and Zn+2/Zn. Saturate 7 filter paper strips in potassium nitrate to be used as salt bridge. (one is for part 2) Make a voltaic cell (2 solutions/strips of your choice) and read the voltmeter. List all 6...

A) if the absorbance of .251M copper(II) chloride solution is .456, what is the Beer’s Law...

A) if the absorbance of .251M copper(II) chloride solution is .456, what is the Beer’s Law extinction coefficient if quvette diameter is 1cm? B) concentrated acetic acid is 17.5M; vinegar is .870M acetic acid. How much concentrated acetic acid in liters will you need to make 28L of vinegar?

Copper (II) sulfite reacts with hydrochoric acid to generate copper (II) chloride, sulfur dioxide, and water....

Copper (II) sulfite reacts with hydrochoric acid to generate copper (II) chloride, sulfur dioxide, and water. Calculate the mass of sulfur dioxide generated when 20.0g of copper (II) sulfite reacts with 30mL of 1M hydrochloric acid.

A solution has 20.0% transmittance. 10.0 mL of the solution was diluted to 20.0 mL. What...

A solution has 20.0% transmittance. 10.0 mL of the solution was diluted to 20.0 mL. What is the % transmittance of the diluted solution?

An aqueous solution of copper(II) iodide has a concentration of 0.448 molal. The percent by mass...

An aqueous solution of copper(II) iodide has a concentration of 0.448 molal. The percent by mass of copper(II) iodide in the solution is _______%

Determine the freezing point of a solution that contains 3.05 g of copper(II) chloride (134.45 g/mol)...

Determine the freezing point of a solution that contains 3.05 g of copper(II) chloride (134.45 g/mol) dissolved in 50.0 grams of water.      (∆Tf = i K m) where K = 1.86 °C/m. Show your work. a. 0.00° C b. - 2.53° C c. - 1.69° C d. 2.53° C

A chemist prepares a solution of copper(II) sulfate CuSO4 by measuring out 31.μmol of copper(II) sulfate...

A chemist prepares a solution of copper(II) sulfate CuSO4 by measuring out 31.μmol of copper(II) sulfate into a 150.mL volumetric flask and filling the flask to the mark with water. Calculate the concentration in mol/L of the chemist's copper(II) sulfate solution. Round your answer to 2 significant digits.

What is the proper tool for measuring 75.0 mL of copper II sulfate?   How many moles...

What is the proper tool for measuring 75.0 mL of copper II sulfate?   How many moles of copper II will be present in the solution if it is 0.378M? What is the proper tool for measuring 2.37g of copper II nitrate? How many moles of copper II are present in that amount of copper II nitrate? If you record 123.5 mL for a solution that has a mass of 176.1 g what would be the density of the solution?

A solution contains 0.00010 M copper (II) ions and 0.0020 M lead (II) ions. A. What...

A solution contains 0.00010 M copper (II) ions and 0.0020 M lead (II) ions. A. What minimal concentration of iodide ions added to the above solution will cause precipitation of lead (II) iodide? Ksp, PbI2 = 9.8 x 10-9 B. What minimal concentration of iodide ions will cause precipitation of copper(II) iodide? Ksp, CuI2 = 1.0 x 10-12 C. Imagine that you are adding KI solution dropwise to the above solution, which salt will precipitate first and what will remain...

a Solution is prepared by diluting 450 mL of 0.773 M cobalt(11) chloride solution with water...

a Solution is prepared by diluting 450 mL of 0.773 M cobalt(11) chloride solution with water to a final volume of 1.25 L. a) calculate the molarities of cobalt (II) and chloride ions in this solution b) determine the mass of cobalt (II) chloride that was dissolved to give the original solution