10. Sulfuryl chloride, SO,Cl, decomposes by first-order kinetics and the half life for the reaction at 80°C is 247 minutes.a) Calculate the value of the rate constant (k) in min. Apply the following equation: t,12 = 0.693/kb) If a 14.0 gram sample of SO,Cl, (molar mass = 134.97 g/mol) is sealed in a 2500 Liter tank andheated to 80 °C, what mass will remain after 1.5 hours? Apply the equation In[A], = In[A] - kt.

Given; The half-life of Sulfuryl chloride SO2Cl2=247 minutes. The temperature is kept…

10. Sulfuryl chloride, SO,Cl,, decomposes by first-order kinetics and the half life for the reaction at 80° Cis 247 minutes. a) Calculate the value of the rate constant (k) in min". Apply the following equation: t,2 = 0.693/k b) If a 14.0 gram sample of SO,Cl, (molar mass = 134.97 g/mol) is sealed in a 2500 Liter tank and heated to 80 °C, what mass will remain after 1.5 hours? Apply the equation In[A], = In[A], – kt.

10. Sulfuryl chloride, SO,Cl,, decomposes by first-order kinetics and the half life for the reaction at 80° Cis 247 minutes. a) Calculate the value of the rate constant (k) in min". Apply the following equation: t,2 = 0.693/k b) If a 14.0 gram sample of SO,Cl, (molar mass = 134.97 g/mol) is sealed in a 2500 Liter tank and heated to 80 °C, what mass will remain after 1.5 hours? Apply the equation In[A], = In[A], – kt.

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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