The rate of the crystal violet/NaOH reaction is given by the following generalized rate law: Rate...
The rate of the crystal violet/NaOH reaction is given by the following generalized rate law: Rate = k’[CV+]y
where k’ is the pseudo rate constant defined by
k’ = k [OH-]x , where k is the actual rate constant
The actual rate constant can be calculated using the pseudo rate constant and the [OH-] present in the reaction mixture. If the reaction mixture is prepared by mixing 5.0 mL of 1.00 x 10-4 M crystal violet solution with 5.0 mL of distilled water and 10.0 mL of 0.10 M NaOH, what is the [OH-] in the reaction mixture?
Homework Answers
moles (mol) = molarity (M) x volume (L)]]
5.0 ml x 1 x 10^-4 M crystal violet + 5.0 ml distilled water + 10 ml x 0.1 M NaOH
Total volume of solution = 5 + 5 + 10
= 20 ml
[OH-] in the reaction mixture = 0.10 M x 10 ml/20 ml
= 0.05 M
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The rate of the crystal violet/NaOH reaction is given by the
following generalized rate law: Rate...
7.00mL of 0.00750 M Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide...
7.00mL of 0.00750 M
Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide ion reaction Page 7 Pre-laboratory Assignment Name: Show all work in your lab notebook and box your final answers. Express to correct sig figs and include units 1) 7.00 mL of 0.00750 M CV solution was diluted to 10.0 mL. Calculate the Beer's law constant ko if the diluted solution's absorbance was measured to be 0.275 using a spectrophotometer. 2) 25.0 mL of a...
question 3 please Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide ion...
question 3 please
Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide ion reaction Page 7 Pre-laboratory Assignment Name: Show all work in your lab notebook and box your final answers, Express to correct sig figs and include units 1) 7.00 mL of 0.00750 M CV solution was diluted to 10,0 mL. Calculate the Beer's law constant Ks if the diluted solution's absorbance was measured to be 0.275 using a spectrophotometer. 2) 25.0 mL of a solution...
A solution is prepared by mixing 10.0 mL of 1.0*10^-4 M crystal violet with 10.0 mL...
A solution is prepared by mixing 10.0 mL of 1.0*10^-4 M crystal violet with 10.0 mL of 0.10M sodium hydroxide. The mixture is diluted with deionized water to a final volume of 100.0 mL. Which compound will be the limiting reagent in the chemical reaction between the crystal violet and the sodium hydroxide?
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I'm not sure if my answer to part d is correct. If it's not then I...
I'm not sure if my answer to part d is correct. If it's not
then I need part d and part e answered. Thank you!
b. A solution is prepared by mixing 25.0 mls of 4.84 x 10% M crystal violet solution with 20.0 mLs of 0.10 M NaOH solution and diluted to a final volume of 100.0 mLs. Determine the limiting reagent. mol CV, 4.84 X10- M 5x 0.025 1.21 x 15 mol mol NaOH = 0.10 X 0.020...
Calculate the rate constant, k, by using Equation 3 (k'=k[OH]^1). Keep in mind, the NaOH solution...
Calculate the rate constant, k, by using Equation
3 (k'=k[OH]^1). Keep in mind, the NaOH solution was
diluted by 50% at the start of the experiment. Write a final
generic rate law using Equation 1 (k[OH]^x[CV]^y)
using the experimental determined values for k, and y. Find the
average for CV (Crystal Violet) order (y), pseudo rate constant
(k'=3.1x10^-8 Ms^-1), and the rate constant (k). The generic rate law is Rate =
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Section #:...
rate law determination of crystal violent reaction one will be Stream TABLE 1. Concentration of crystal...
rate law determination of crystal violent reaction
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7.00mL of 0.00750 M
Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide ion reaction Page 7 Pre-laboratory Assignment Name: Show all work in your lab notebook and box your final answers. Express to correct sig figs and include units 1) 7.00 mL of 0.00750 M CV solution was diluted to 10.0 mL. Calculate the Beer's law constant ko if the diluted solution's absorbance was measured to be 0.275 using a spectrophotometer. 2) 25.0 mL of a...
question 3 please
Integrated Chemical Kinetics Determination of the Rate Law for the Crystal Violet/Hydroxide ion reaction Page 7 Pre-laboratory Assignment Name: Show all work in your lab notebook and box your final answers, Express to correct sig figs and include units 1) 7.00 mL of 0.00750 M CV solution was diluted to 10,0 mL. Calculate the Beer's law constant Ks if the diluted solution's absorbance was measured to be 0.275 using a spectrophotometer. 2) 25.0 mL of a solution...
12. The reaction between 1.0 x 104 M crystal violet and 1.0 M NaOH was monitored with UV-Vis spectroscopy. The reaction can be considered as an elementary reaction. I C25H30N3+(aq) + OH-(aq)- C2sH310N3(aq) From the experiment after 1000 s the [CV+) decreased to 50% of the initial concentration. What is the time required to consume 90% of the crystal violet?! A) B) 3322 s 5336 s 1100 s 705 s 3001 s D) E)
I'm not sure if my answer to part d is correct. If it's not
then I need part d and part e answered. Thank you!
b. A solution is prepared by mixing 25.0 mls of 4.84 x 10% M crystal violet solution with 20.0 mLs of 0.10 M NaOH solution and diluted to a final volume of 100.0 mLs. Determine the limiting reagent. mol CV, 4.84 X10- M 5x 0.025 1.21 x 15 mol mol NaOH = 0.10 X 0.020...
Calculate the rate constant, k, by using Equation
3 (k'=k[OH]^1). Keep in mind, the NaOH solution was
diluted by 50% at the start of the experiment. Write a final
generic rate law using Equation 1 (k[OH]^x[CV]^y)
using the experimental determined values for k, and y. Find the
average for CV (Crystal Violet) order (y), pseudo rate constant
(k'=3.1x10^-8 Ms^-1), and the rate constant (k). The generic rate law is Rate =
k(actual value with correct units)[CV]^(order for cv)[OH]^1.
Section #:...
rate law determination of crystal violent reaction
one will be Stream TABLE 1. Concentration of crystal violet versus time in the crystal violet reaction the outerwo (make calculations for the third and fourth column and graph the results vs time) (make calculations for the t o p N use 3 decimal Time (min) [A] (molar conc.) In (A) 1/[A] 0 (initial) 1.000 When doing the 0.893 1-0.113 gruph also ad 0.806 -ba15 1.240 - por 0.735 -0.307 1.3600 0.676 0.3911...
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