Chemical kinetics refers to the branch of chemistry that deals with how fast and how reactions happen. An example of this is a gold wedding ring that someone is wearing. Believe it or not, that ring is oxidizing right before your eyes (gasoline is oxidized when you light it!). It just happens so extremely slow that you will never see it in your lifetime! So Chem. kinetics deals with:
1. rates of reaction: how fast does a reaction happen? how does increasing one of the reactants affect the rate of reaction? is it the same as increasing a different reactant?
2. mechanisms of reaction: does the reaction go exactly as written? or are there a few sub steps that happen in relatively quick succession? is one of those sub steps the rate determining step that determines the overall rate of the whole reaction?
The branch of Chemistry that studies reaction mechanisms is called mechanistic chemistry. It focuses on understanding the step-by-step process by which chemical reactions occur, including the formation and breaking of chemical bonds. This knowledge is essential for designing and optimizing chemical reactions for various applications.
The zeroth order rate law in chemical kinetics is significant because it describes a reaction where the rate of reaction is independent of the concentration of reactants. This means that the reaction proceeds at a constant rate regardless of how much reactant is present. This can provide valuable insights into the reaction mechanism and help in understanding the overall kinetics of a chemical reaction.
Chemical kinetics has many application.some of them are;. used as manufactuer of medicine, . used as synthesis of organic and inorganic compounds.
The speed of the reaction
The zero order rate constant in chemical kinetics is significant because it represents the rate at which a reaction occurs independently of the concentration of reactants. This constant helps determine the overall reaction rate and is crucial for understanding the reaction mechanism and designing efficient chemical processes.
I. Amdur has written: 'Chemical Kinetics' -- subject(s): Chemical kinetics
Chemical kinetics is the study of the rates of chemical processes. This is done in order to find out the reaction's mechanism, as well as the transition states.
This is chemistry, especially chemical kinetics.
Sir Cyril Norman Hinshelwood has written: 'The chemical kinetics of the bacterial cell' -- subject(s): Biochemistry, Bacteria, Chemical kinetics 'The kinetics of chemical change' -- subject(s): Chemical reactions, Kinetic theory of gases
in chemical kinetics
John B. Butt has written: 'Reaction kinetics and reactor design' -- subject(s): Chemical kinetics, Chemical reactors
Chemical decay, also known as radioactive decay, is a process that occurs naturally (usually in isotopes or unstable substances) Chemical Kinetics is one of the ways you can analyze radioactive decay. Although it should be noted that radioactive decay undergoes first order decay when using Chemical Kinetics.
Charles G. Hill has written: 'An introduction to chemical engineering kinetics & reactor design' -- subject(s): Chemical kinetics, Chemical reactors, Design and construction
Gert D. Billing has written: 'Advanced molecular dynamics and chemical kinetics' -- subject(s): Chemical kinetics, Molecular dynamics
Philip George Ashmore has written: 'Principles of reaction kinetics' -- subject(s): Chemical kinetics
The branch of Chemistry that studies reaction mechanisms is called mechanistic chemistry. It focuses on understanding the step-by-step process by which chemical reactions occur, including the formation and breaking of chemical bonds. This knowledge is essential for designing and optimizing chemical reactions for various applications.
Sir William Thomson, also known as Lord Kelvin, is often recognized as the father of chemical kinetics. He made significant contributions to the study of reactions rates and the mechanisms of chemical reactions.