Homework Answers
An increase in temperature increases the rate constant and hence the rate. An increase in concentration increases the rate but not the rate constant.
So at different temperature rate constant of same reaction have different value at high temperature it has high valu and low temperature it has low value.
Option b is correct answer because it has highest value 0.023M-1S-1.
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When studying the same reaction at different temperatures, which rate constant value is associated with the...
The rate constant k for a certain reaction is measured at two different temperatures: temperature 148.0°C...
The rate constant k for a certain reaction is measured at two different temperatures: temperature 148.0°C 78.0°C k 9.7x10? 9.4 x 10° Assuming the rate constant obeys the Arrhenius equation, calculate the activation energy E for this reaction. Round your answer to 2 significant digits. 9.- Omol
The rate constant k for a certain reaction is measured at two different temperatures: temperature 397.0°C...
The rate constant k for a certain reaction is measured at two different temperatures: temperature 397.0°C 280.0°C k 1.1 x 1010 1.3 x 10° Assuming the rate constant obeys the Arrhenius equation, calculate the activation energy for this reaction. Round your answer to 2 significant digits. 0.
12. Which set of units of A: the rate constant of first-order reactions, B: the rate...
12. Which set of units of A: the rate constant of first-order reactions, B: the rate constant of second-order reactions, and C: the velocity of second-order reactions is CORRECT? a. s? M -1 b. st M's : M's-1 : Ms :M -1 : Ms M's d. M's? 13. The decay of 2M Seaborgium-266 (Sg) takes 60 seconds to become a 4 of its original amount. What is the rate constant of this isotope? a. 0.006 b. 0.012 c. 0.023 d....
The following data show the rate constant of a reaction measured at several different temperatures. Temperature...
The following data show the rate constant of a reaction measured at several different temperatures. Temperature (K) Rate Constant (1/s) 310 4.54×10−2 320 0.136 330 0.381 340 1.01 350 2.51 Part A Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer using three significant figures. Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer using two significant figures.
The following data show the rate constant of a reaction measured at several different temperatures. Temperature...
The following data show the rate constant of a reaction measured at several different temperatures. Temperature (K)(K) Rate Constant (1/s)(1/s) 310 0.923 320 2.50 330 6.38 340 15.4 350 35.3 Part A Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer using three significant figures. Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer using two significant figures.
3. The rate constant has been determined at several different temperatures. When the data is graphed...
3. The rate constant has been determined at several different temperatures. When the data is graphed as in k vs. 1/T (K-!), the slope of the line is -1.48 x 104 and the y-intercept is 24.6. What is the activation energy, E, for this reaction? a. 9.62 kJ b. 15.0 kJ c. 123 kJ d. 205 kJ e. 1214 kJ I 4. For the reaction (CH3), CBr(aq) + OH" (aq) → (CH), COH(aq) +Br"(aq) the following data were obtained at...
The Arrhenius equation shows the relationship between the rate constant k and the temperature T in...
The Arrhenius equation shows the relationship between the rate constant k and the temperature T in kelvins and is typically written as k=Ae−Ea/RT where R is the gas constant (8.314 J/mol⋅K), A is a constant called the frequency factor, and Ea is the activation energy for the reaction. However, a more practical form of this equation is lnk2k1=EaR(1T1−1T2) which is mathmatically equivalent to lnk1k2=EaR(1T2−1T1) where k1 and k2 are the rate constants for a single reaction at two different absolute...
HIR The following data show the rate constant of a reaction measured at several different temperatures....
HIR The following data show the rate constant of a reaction measured at several different temperatures. Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer using three significant figures. 150 ACQ* O ? Temperature (K) Rate Constant (s-1) 310 7.93x10-2 320 0.233 330 0.643 340 1.67 4.10 kJ mol-1 350 Submit Request Answer Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer using two significant figures....
The following data show the rate constant of a reaction measured at several different temperatures. Temperature...
The following data show the rate constant of a reaction measured at several different temperatures. Temperature (K) Rate Constant (1/s) 300 1.19×10−2 310 3.64×10−2 320 0.104 330 0.278 340 0.703 Part A Part complete Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer using three significant figures. -- SubmitPrevious AnswersRequest Answer Part B Part complete Use an Arrhenius plot to determine frequency factor for the reaction. Express your answer using two significant figures. --...
The Arrhenius equation shows the relationship between the rate constant k and the temperature T in...
The Arrhenius equation shows the relationship between the rate constant k and the temperature T in kelvins and is typically written as k=Ae−Ea/RT where R is the gas constant (8.314 J/mol⋅K), A is a constant called the frequency factor, and Ea is the activation energy for the reaction. However, a more practical form of this equation is lnk2k1=EaR(1T1−1T2) which is mathmatically equivalent to lnk1k2=EaR(1T2−1T1) where k1 and k2 are the rate constants for a single reaction at two different absolute...
The rate constant k for a certain reaction is measured at two different temperatures: temperature 148.0°C 78.0°C k 9.7x10? 9.4 x 10° Assuming the rate constant obeys the Arrhenius equation, calculate the activation energy E for this reaction. Round your answer to 2 significant digits. 9.- Omol
The rate constant k for a certain reaction is measured at two different temperatures: temperature 397.0°C 280.0°C k 1.1 x 1010 1.3 x 10° Assuming the rate constant obeys the Arrhenius equation, calculate the activation energy for this reaction. Round your answer to 2 significant digits. 0.
12. Which set of units of A: the rate constant of first-order reactions, B: the rate constant of second-order reactions, and C: the velocity of second-order reactions is CORRECT? a. s? M -1 b. st M's : M's-1 : Ms :M -1 : Ms M's d. M's? 13. The decay of 2M Seaborgium-266 (Sg) takes 60 seconds to become a 4 of its original amount. What is the rate constant of this isotope? a. 0.006 b. 0.012 c. 0.023 d....
3. The rate constant has been determined at several different temperatures. When the data is graphed as in k vs. 1/T (K-!), the slope of the line is -1.48 x 104 and the y-intercept is 24.6. What is the activation energy, E, for this reaction? a. 9.62 kJ b. 15.0 kJ c. 123 kJ d. 205 kJ e. 1214 kJ I 4. For the reaction (CH3), CBr(aq) + OH" (aq) → (CH), COH(aq) +Br"(aq) the following data were obtained at...
HIR The following data show the rate constant of a reaction measured at several different temperatures. Use an Arrhenius plot to determine the activation barrier for the reaction. Express your answer using three significant figures. 150 ACQ* O ? Temperature (K) Rate Constant (s-1) 310 7.93x10-2 320 0.233 330 0.643 340 1.67 4.10 kJ mol-1 350 Submit Request Answer Part B Use an Arrhenius plot to determine the frequency factor for the reaction. Express your answer using two significant figures....
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