Lee, Temperature dependence of the rate constant for the reaction OH + H2S in He, N2, and O2, Int. J. Chem. Kinet. 17 (11) (1985) 1201-1214.Wang,N.S.,Lovejoy,E.R.,Howard,C.J.Temperature dependence of the rate constant for the reaction HS + NO2. The Journal of Physical ...
By means of high-angle double-crystal X-ray diffractometry (HADOX), lattice constant measurements with a relative accuracy of better than one part in 106 have been made of SrTiO3 single crystals grown by the Verneuil method. An analysis of the temperature dependence of the lattice constants ...
Hydrogen abstraction was found at temperatures above 548 K and the temperature dependence of the rate constant relative to the CF3 radical recombination was found to follow the expression log (kH/kcc)=(5.23 ± 0.19)–(41.7 ± 2.4)/θ, where θ= 2.303 RT/kJ mol–1 and kH/kc is in ...
For an elementary reaction the temperature dependence of the rate constant is given by the Arrhenius equationK(T) =νe^(-Ea/RT) where ν is called the preexponential factor (sometimes called prefactor) and Ea the activation energy (in kJ mol^(–1)).One can also express the activation ene...
Temperature dependence of the rate constant for the reaction OH + H2S in He, N2, and O2 The rate constants of the reaction between OH and H 2 S in He, N 2 , and O 2 over the temperature range 245–450 K have been determined using the discharge flow-resonance fluorescence technique. ...
The temperature dependence of the resistivity at constant volume and at constant pressure is discussed in the term of the temperature variation of the correlation function a(K).doi:10.1080/14786436308207303EndoHirohisaTaylor & Francis GroupPhilosophical Magazine...
An expression is obtained for the dielectric constant of a displacive ferroelectric in its unpolarized phase. This has been derived with the use of a Hamiltonian treated by Szigeti in connection with the temperature-dependent dielectric constant of the alkali halides. In the present work, however,...
CheminformJ.A. Davidson, H.I. Schiff, G.E. Streit, J.R. McAfee, A.L. Schmeltekopf, and C.J. Howard. Temperature dependence of O(1D) rate constants for reactions with N2O, H2, CH4, HCl and N H3 . J. Chem. Phys., pages 5021-5025, 1977....
Results at or near the high pressure limit are well represented by the Arrhenius expressionk∞1=(1.11±0.36)×10−13exp[−(1852±100)/T] cm3molecule−1s−1over the temperature range 241–459 K. For the reaction NH2+C2H4(2), a smaller increase in the bimolecular rate constant with...
We report here the study of the temperature dependence of the nucleation rate constant on an Aβ monomer concentration of 18.4 μM at pH 7.4 and at temperatures ranging from 302 to 318 K. We found that the nucleation constant varied as in the Arrhenius law, giving an ...