Units converter for activation energy
calculator.org the calculator home page

activation energy 

 

Enter a value into either text box and select units using the drop-down boxes.


=

What is Activation Energy?

Activation energy is the energy required for a certain chemical reactions to occur. You can think of this as a kind of threshold level of energy that must be overcome before a chemical reaction will begin. Many kinds of chemical reactions require some kind of activation energy, and the most notable example is combustion. Every time you strike a match, the rubbing of the tip of the match against the hard grit on the matchbox provides the activation energy that must be overcome in order for the match to begin the combustion reaction we call fire. Activation energy is the reason why your matches don’t just start burning spontaneously in the package before you strike them.

Symbolically, activation energy is represented as Ea, and uses the units of kilojoules per mole of reactant. The Arrhenius equation gives the relationship between activation energy and the rate of a chemical reaction.

Ea = -RT*ln(k/A)

In this equation, k is reaction rate constant, R is the universal gas constant, and T is the ambient temperature in kelvin. The inverse exponential relationship between activation energy and the rate constant k guarantees that reactions with a very high activation energy will also have a very low reaction rate. As activation energy decreases, the reaction rate increases. One must also note the apparent temperature dependence of activation energy to the reaction rate constant. It turns out that this supposed dependence is cancelled out by the temperature dependence of the reaction rate constant.

One way to lower the activation energy in a reaction is with a chemical catalyst. In chemistry (as distinct from biology) a catalyst serves the purpose of lowering the activation energy in a reaction by changing the transition state of the reaction. In this process, the catalyst is by definition not consumed in the reaction. If it were, it would not be considered a catalyst because it would be a part of the reaction. A good metaphor of a catalyst might be a person standing in a crowded room giving out directions to the door. As people pass by, they find out where they need to go and get there faster.

Interestingly, there actually are some kinds of chemical reactions that have negative activation energy. This would otherwise be absurd if we didn’t observe that the same reactions need no threshold to get started. They are the kinds of reactions involving molecules being captured inside a potential well. When the temperature increases, the molecules pass by the potential well faster, and the probability of their being captured decreases. The ones that pass by the potential well also end up carrying particles out of the potential well upon colliding with them. Hence we get a negative activation energy because this kind of reaction only functions when particles are passing by at low speeds.

Free Windows Phone Dictionary app
Bookmark this page in your browser using Ctrl and d or using one of these services: (opens in new window)