The gas phase decomposition of sulfuryl chlorideSO₂Cl₂ → SO₂ + Cl₂follows a first-order law. The reaction is carried out in a constant volume (V) isothermalbatch reactor. For the first-order reaction, the rate r = kC₁, where C₁ (mol/liter) is theconcentration of sulfuryl. And k = 3.5(e-3) min(3.1) Use the mass balance (for transient processes) to find the equation for depletion ofC₁ (t) as a function of time (t).(3.2) Solve this ordinary differential equation for C₁ at t = 4 minute, using the initialcondition: at t=0, C₁ (0) = 0.0284 mol/liter.

Rate = k C1 That means for 1st order reaction, initial rate is directly proportional to the initial…

The gas phase decomposition of sulfuryl chloride SO₂Cl₂ SO₂ + Cl₂ follows a first-order law. The reaction is carried out in a constant volume (V) isothermal batch reactor. For the first-order reaction, the rate r = kC₁, where C₁ (mol/liter) is the concentration of sulfuryl. And k = 3.5(e-3) min mi (3.1) Use the mass balance (for transient processes) to find the equation for depletion of C₁ (t) as a function of time (t). (3.2) Solve this ordinary differential equation for C₁ at t = 4 minute, using the initial condition: at t=0, C₁ (0) = 0.0284 mol/liter. wwwwwmm

The gas phase decomposition of sulfuryl chloride SO₂Cl₂ SO₂ + Cl₂ follows a first-order law. The reaction is carried out in a constant volume (V) isothermal batch reactor. For the first-order reaction, the rate r = kC₁, where C₁ (mol/liter) is the concentration of sulfuryl. And k = 3.5(e-3) min mi (3.1) Use the mass balance (for transient processes) to find the equation for depletion of C₁ (t) as a function of time (t). (3.2) Solve this ordinary differential equation for C₁ at t = 4 minute, using the initial condition: at t=0, C₁ (0) = 0.0284 mol/liter. wwwwwmm

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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A pollutant is being removed in a batch reactor by a 2nd order reaction. 1) Write the rate equation for the 2nd order reaction in the batch reactor. 2) Determine the pollutant concentration at the end of the reaction, which is 10 hours from the beginning of the reaction. It is known that the initial concentration is 300mg/L and the concentration reduces to 100mg/L after 5 hours. (1/C = 1/C_o + kt).
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O KINETICS AND EQUILIBRIUM Solving applied problems with first-order kinetics Har 60.1 g per day of a certain industrial waste chemical P arrives at a treatment plant settling pond with a volume of 300. m°. P is destroyed by sunlight, and 3 once in the pond it has a half-life of 6.6 h. Calculate the equilibrium concentration of P in the pond. Round your answer to 2 significant digits. x10 3 Explation Check Privacy Accessit O2021 McGraw-Hill Education. All Rights Reserved. Terms of Use )国具a 20 ty II
The gas-phase decomposition of di-tert-butyl peroxide. (CH₂) COOC(CH3)3, is first order in the temperature range 110°C to 280°C with a first- order rate coefficient k=3.2 x 10¹ exp[-(164 kJ mol/RT³ Part A What is the value of AH for this reaction in the temperature range between 110 Cand 280 C Express your answer with the appropriate units. ΔΗ" - 164 НА kJ mol Submit Previous Answers Request Answer Xncorrect; Try Again; 4 attempts remaining ?
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The rate at which a certain drug is eliminated by the body follows first-order kinetics, with a half life of 75 minutes. Suppose in a particular patient the concentration of this drug in the bloodstream immediately after injection is 0.36 µg/mL. What will the concentration be 225 minutes later? Round your answer to 2 significant digits. με mL Continue D x10 X Submit Assignment © 2023 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center | Accessibility
A +B - C [AJ(M)[B](M) Initial Rate (M/h) 0.153 0.191 122 Using the rate equation Rate k[A]™[B]", and the partial data table above, find k if m=1 and n=1. Please do not include units.