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time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19 time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19

time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19 time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19

Chemistry
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...
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time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19
Transcribed Image Text:time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19
time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19
Transcribed Image Text:time 178 *ms agr vapor press motic pressur of solute partt lou of solute parte olligative prope solution is on of antifreeze g of salt on icy S hts of unknown 'ution. The relatio oint depression of Exp. 1: 5.0mL 1.0 mL 3.0% H₂O₂ 1.0 M KI 14.0mL DI H₂O Exp. mL KI/20 mL int depression total time every ZML for 20mL'S 1 1.0mL 2 1.0mL 3 2.0mL mL H2O2/20 mL 5.0mL 10.0mL 5.0mL Rate (mL/SEC) y= 0.0474y R² R2 = 0.9709 y=0.106⭑ R² = 0.9991 400.0474K R2 = 0.9927 Determine the Molarity of KI and H2O2 for each experiment. Show your work. scatterplot Use the dilution formula: M1V₁ = M2V2 Note: The molarity of KI in the reagent bottle = 1.0 M Molarity of KI Vol 'y=mx Exp. ↑ rate Time 1. (1m)(1mc) = (20ml) (05m) 2. (IM) (1 mL) = (20ml)(.05m) 3. (1mx 2mL) = (20ml)(.1m) Molarity of H2O2 Note: The density of the 3.0% H2O2 solution is 1.01 g/mL Calculate the molarity of the 3.0% by weight H2O2. Show your work. (0.03) = .44 mol/L (m) 10ml = 1.01g/ml = 10.19 34.4molla Calculate the molarity of the H2O2 in the flask. Show your work. Use the dilution formula: M₁V₁ = M2V2 Exp. 1. (.44M) (5m²) = (20m²) (.11 m) 2. (.44 MX10ml) = (20ml)(.22m) 3. (.44M)(Smc) = (20ml)(11) Fill in the following table. time MV = D (mx10m=1.01g/mc 10.19
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