The activation energy for the gas phase isomerization of vinyl allyl ether is 128 kJ. CH2CH-O-CH2CH=CH2CH2CHCH2CH2CHO The rate constant at 465 K is 7.96×10-4 /s. The rate constant will be 1.12×10-2 /s at _________ K.
The activation energy for the gas phase decomposition of t-butyl bromide is 170 kJ. (CH3)3CBr(CH3)2C=CH2 + HBr The rate constant at 520 K is 1.66×10-4 /s. The rate constant will be /s at 554 K. For the gas phase decomposition of cyclobutane, the rate constant will be _________ at 554 K.
(CH2)42 C2H4 the rate constant at 734 K is 8.75×10-4 /s and the rate constant at 777 K is 9.42×10-3 /s.
The activation energy for the gas phase decomposition of cyclobutane is _______ kJ.
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The activation energy for the gas phase isomerization of vinyl allyl ether is 128 kJ. CH2CH-O-CH2CH=CH2CH2CHCH2CH2CHO...
The activation energy for the gas phase isomerization of isopropenyl allyl ether is 123 kJ. CH, C(CH4-O-CH,CH-CH, CH,COCH,CH,CH-CH, The rate constant at 449 K is 9.47x10- /s. The rate constant will be 1.25x10-2/s at Submit Answer Retry Entire Group 8 more group attempts remaining The activation energy for the gas phase decomposition of isobutyl bromide is 211 kJ. (CH),CHCH,Br (CH2),C-CH, + HBr The rate constant at 679 K is 7.03x10- /s. The rate constant will be /s at 721 K....
For the gas phase isomerization of isopropenyl allyl ether, CH2=C(CH3)-O-CH2CH=CH2– CH3COCH2CH2CH=CH2 the rate constant has been determined at several temperatures. When In k in sis plotted against the reciprocal of the Kelvin temperature, the resulting linear plot has a slope of -1.48x104 K and a y-intercept of 26.0. The activation energy for the gas phase isomerization of isopropenyl allyl ether is kJ/mol. Submit Answer Retry Entire Group 8 more group attempts remaining For the gas phase decomposition of isobutyl bromide,...
The activation energy for the gas phase decomposition of R-bromopropane is 212 kJ/mol. CH3CHBrСHz- -CH2CH=CH2 + HBr The rate constant for this reaction is 9.53X104 s1 at 692 K. What is the rate constant at 731 K? S
The activation energy for the gas phase decomposition of cyclobutane is 262 kJ. (CH2) 2 C.H The rate constant at 729 K is 6.70x10-4/s. The rate constant will be s at 762 K
The activation energy for the gas phase isomerization of dimethyl citraconate is 105 kJ. cis-(CH3OOC)(CH3)C=CHCOOCH3 -----> trans-(CH3OOC)(CH3)C=CHCOOCH3 The rate constant at 644 K is 3.00×10-4 /s. The rate constant will be 3.21×10-3 /s at _____ K?
The activation energy for the gas phase isomerization of dimethyl citraconate is 105 kJ. cis-(CH3OOC)(CH3)C=CHCOOCH3trans-(CH3OOC)(CH3)C=CHCOOCH3 The rate constant at 642 K is 2.79×10-4 /s. The rate constant will be 2.06×10-3 /s at__ K.
The activation energy for the gas phase isomerization of dimethyl citraconate is 105 kJ. cis-(CH3OOC)(CH3)C=CHCOOCH3--->trans-(CH3OOC)(CH3)C=CHCOOCH3 The rate constant at 676 K is 7.67×10-4 /s. The rate constant will be 8.21×10-3 /s at ______ K.
The activation energy for the gas phase decomposition of t-butyl acetate is 170 kJ. CH3COOC(CH3)3—(CH3)2C=CH2 + CH3COOH The rate constant at 540 K is 7.54x10-4 /s. The rate constant will be Is at 583 K.
The activation energy for the gas phase isomerization of dimethyl maleate is 111 kJ. cis-CH 00CCH-CHCOOCH trans-CH,OOCCH CHCOOCH The rate constant at 693 K is 5.70 10 /s. The rate constant will be 8.49 103 /s at
The activation energy for the gas phase decomposition of t-butyl chloride is 173 kJ/mol. (CH3)3CCl---->(CH3)2C=CH2 + HCl The rate constant for this reaction is 7.30×10-5 s-1 at 546 K. What is the rate constant at 589 K? ___s-1