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In a series of studies, the National Institute of Science and Technology (NIST) in the U.S. has developed a mathematical model called kinetic isotope effect (KIE) to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.

In a series of studies, the National Institute of Science and Technology (NIST) in the U.S. has developed a mathematical model called kinetic isotope effect (KIE) to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.In a series of experiments, the National Institute of Science and Technology NIST in the U.S. has developed a mathematical model called kinetic isotope effect KIE to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.

In a series of studies, the National Institute of Science and Technology (NIST) in the U.S. has developed a mathematical model called kinetic isotope effect (KIE) to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.In a series of experiments, the National Institute of Science and Technology NIST in the U.S. has developed a mathematical model called kinetic isotope effect KIE to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.This is part of a series of experiments that the National Institute of Science and Technology NIST has done. The mathematical model, called kinetic isotope effect KIE is one the most accurate methods for measuring reaction rates. A computer program called Kinetics Explorer, created by NIST, can automatically take into account all of the other experiments that have been done over the years and calculate the KIE. This is a great tool for quickly determining rates of chemical reactions.

In a series of studies, the National Institute of Science and Technology (NIST) in the U.S. has developed a mathematical model called kinetic isotope effect (KIE) to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.In a series of experiments, the National Institute of Science and Technology NIST in the U.S. has developed a mathematical model called kinetic isotope effect KIE to estimate the rate constant of chemical reactions. The KIE is a ratio of the rate constant for a particular reaction to an external factor.This is part of a series of experiments that the National Institute of Science and Technology NIST has done. The mathematical model, called kinetic isotope effect KIE is one the most accurate methods for measuring reaction rates. A computer program called Kinetics Explorer, created by NIST, can automatically take into account all of the other experiments that have been done over the years and calculate the KIE. This is a great tool for quickly determining rates of chemical reactions.The KIE was developed in the 1940’s by Hans Krebs and was named after him. It’s a method for calculating the rate constant for a chemical reaction as a function of the concentration of one reactant. It is used to determine the rate of chemical reactions because it gives a clear picture of the concentration dependence of reaction rate constants. It was designed to predict the rate of reactions that would be observed in nature, and as such, is a powerful tool for researchers.

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