Use M1V1=M2V2 to calculate the volume of stock solution required to prepare solutions of 0.03M, 0.06M,...

Use M1V1=M2V2 to calculate the volume of stock solution required to prepare solutions of 0.03M, 0.06M,...

Use M1V1=M2V2 to calculate the volume of stock solution required to prepare solutions of 0.03M, 0.06M, 0.09M, 0.12M, and 0.15M from a stock solution of 0.150M Co(NO3)2 Please show work

Chemistry calculations, please show all work How do you prepare the following solutions? 1) 2L solution...

Chemistry calculations, please show all work How do you prepare the following solutions? 1) 2L solution of 20% methanol. FW=32.06g/mol 2) 2L solution of 150mM MOPS. FW=209.26g/mol 3) how would you prepare 1L of 5X stock solution of 0.15M sodium phosphate buffer (use Na2HPO4) FW=141.96g/mol

Calculate the volume in mL of a 1.420M NaOH soution required to titrate the following solutions:...

Calculate the volume in mL of a 1.420M NaOH soution required to titrate the following solutions: a) 25.00mL of a 2.430M HCl solution b) 25.00mL of a 4.500M H2SO4 solution (can you please show all the steps and work needed to solve this problem, thank you!)

In today’s experiment you will need to make 15 mL of a 3.0 M HCl solution....

In today’s experiment you will need to make 15 mL of a 3.0 M HCl solution. You will be diluting from a stock solution of 4.5 M HCl. Use your dilution calculation (M1V1 = M2V2) to determine how much of the original stock solution you will need.  How much water will you be adding to the acidic solution?

Calculate the volume (mL) of 1.0 M metal nitrate solution required to prepare 3.0 g of...

Calculate the volume (mL) of 1.0 M metal nitrate solution required to prepare 3.0 g of CaCO3. Again, using the balanced chemical equation you should be able to relate the moles of pigment to the moles of metal nitrate and from that calculate the volume of 1.0 M metal nitrate solution required. Balanced equation: Ca(NO3)2 (aq) + K2CO3 (aq) ↔ CaCO3 (s) + 2KNO3 (aq)

Prepare the following solutions by determiing the proper mass of solute (or volume in the case...

Prepare the following solutions by determiing the proper mass of solute (or volume in the case where you are working from a stock solution) that will need to be transferred to the volumetric flask. Use diemensional analysis where apporpriate to do so. Describe how you would make each solution. a. 150.0 mL of .50 M hydrochorlic acid solution from a concetrated stock solution of 12.0M hydrochloric acid. b. 250.0 mL of a 1.50 M solution of potassium permanganate. c. 2.00...

Prepare the following solutions by determiing the proper mass of solute (or volume in the case...

Prepare the following solutions by determiing the proper mass of solute (or volume in the case where you are working from a stock solution) that will need to be transferred to the volumetric flask. Use diemensional analysis where apporpriate to do so. Describe how you would make each solution. a. 150.0 mL of .50 M hydrochorlic acid solution from a concetrated stock solution of 12.0M hydrochloric acid. b. 250.0 mL of a 1.50 M solution of potassium permanganate. c. 2.00...

prepare a standard solution of NaOH. The concentration is approximately 2.5M, the volume(amount of the solution...

prepare a standard solution of NaOH. The concentration is approximately 2.5M, the volume(amount of the solution to be made) is 1.5L, and the moles mass of NaOH is 40g/mol. How much of the NaOH do you need to add to 1.5L of water to prepare a standard solution of 2.5M NaOH? show all the work

calculate the mass (g) of sodium sulfate needed to prepare 100.0ml of solution . a)Type the...

calculate the mass (g) of sodium sulfate needed to prepare 100.0ml of solution . a)Type the calculation performed to determine the mass of sodium sulfate necessary to prepare the 0.028 M stock solution. Report the final answer to appropriate number of significant figures. b)Report the actual mass of sodium sulfate used to prepare the 0.028 M stock solution. Type the calculation performed to determine the actual concentration of the 0.028 M stock solution. Report the final answer to appropriate number...

A student is givrn a stock solution of red dye that has a concentration of 5.682x10^-5...

A student is givrn a stock solution of red dye that has a concentration of 5.682x10^-5 M. The student is asked to make five dilute solutions from this stock solution. Information for the five solutions is providen in the table below. Calculate the concentration of each solution, be sure to show your work very neatly below the table Solution Name Volume Of Stock Final Volume Final Concentration (M) Solution 1 1mL 200mL Solution 2 2mL 200mL Solution 3 3mL 200mL...