The familiar form for the Arrhenius equation for two different absolute temperatures T1 and T2 is:
ln k2?/?k1 = ?Ea?/?R (1?/?T2 ? 1?/?T1?)
Equations relating several parameters can usually be expressed in any of several algebraically equivalent expressions.
Which of the following is an algebraically equivalent expression of the Arrhenius equation?
A. ln k2?/?k1 = Ea?/?R (1?/?T1 ? 1?/?T2?)
B. ln k2?/?k1 = R?/?Ea (1?/?T1 ? 1?/?T2?)
C. ln k1?/?k2 = Ea?/?R (1?/?T1 ? 1?/?T2?)
D. ln k1?/?k2 = R?/?Ea (1?/?T1 ? 1?/?T2?)
The familiar form for the Arrhenius equation for two different absolute temperatures T1 and T2 is:
ln k2?/?k1 = ?Ea?/?R (1?/?T2 ? 1?/?T1?)
Equations relating several parameters can usually be expressed in any of several algebraically equivalent expressions.
Which of the following is an algebraically equivalent expression of the Arrhenius equation?
A. ln k2?/?k1 = Ea?/?R (1?/?T1 ? 1?/?T2?)
B. ln k2?/?k1 = R?/?Ea (1?/?T1 ? 1?/?T2?)
C. ln k1?/?k2 = Ea?/?R (1?/?T1 ? 1?/?T2?)
D. ln k1?/?k2 = R?/?Ea (1?/?T1 ? 1?/?T2?)
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