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Chemical Kinetics
Relaxation Time of Reversible First Order in Chemical Kinetics Formulas
Relaxation time of Reversible First Order is the time in which deviation in the conc. of reactant from equillibrium conc. after time becomes 1/e times of the initial conc. in the conc. of reactant. And is denoted by ζ. Relaxation Time of Reversible First Order is usually measured using the Second for Time. Note that the value of Relaxation Time of Reversible First Order is always negative.
Formulas to find Relaxation Time of Reversible First Order in Chemical Kinetics
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Relaxation Time of Reversible First Order
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List of variables in Chemical Kinetics formulas
f
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Forward Rate Constant
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f
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Rate Constant of Backward First Order
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FAQ
What is the Relaxation Time of Reversible First Order?
Relaxation time of Reversible First Order is the time in which deviation in the conc. of reactant from equillibrium conc. after time becomes 1/e times of the initial conc. in the conc. of reactant. Relaxation Time of Reversible First Order is usually measured using the Second for Time. Note that the value of Relaxation Time of Reversible First Order is always negative.
Can the Relaxation Time of Reversible First Order be negative?
Yes, the Relaxation Time of Reversible First Order, measured in Time can be negative.
What unit is used to measure Relaxation Time of Reversible First Order?
Relaxation Time of Reversible First Order is usually measured using the Second[s] for Time. Millisecond[s], Microsecond[s], Nanosecond[s] are the few other units in which Relaxation Time of Reversible First Order can be measured.
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