Is the Boltzmann Factor Calculator free to use?

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No. Calculations run locally in your browser. We do not collect the numbers you enter or the results shown.

Can I use the Boltzmann Factor Calculator for professional decisions?

This tool is for education and quick estimates. For medical, legal, tax, or financial decisions, verify results with a qualified professional.

Where can I find related calculators?

Browse more Physics tools on Try To Calculator at /physics, or use the related calculators section on this page.

Boltzmann Factor Calculator

Last updated: May 29, 202419 people find this calculator helpful

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You can use this Boltzmann factor calculator to compute the relative probability of two states of a system at thermal equilibrium. If you want to learn more about the thermal equilibrium and the Boltzmann distribution (also called Gibbs distribution).

Boltzmann distribution (Gibbs distribution)

The Boltzmann distribution specifies a probability with which an individual state of a system appears at thermal equilibrium characterized by the temperature $T$ T. The equation is:

P = \frac{1}{Z} e^{- E / k_{B} T}

P=Z1e−E/kBT

where

$Z$ Z – Normalization constant;
$E$ E – Energy of the state (in joules);
$k_{B} =$ 1.38065×10−23J/KkB=1.38065×10−23J/K is the Boltzmann constant;
$T$ T – Temperature (in kelvins); and
$P$ P – Probability that this state occurs.

An essential feature of the Boltzmann distribution is that the probability P depends only on the energy E of the state. Boltzmann distribution is central to our understanding of condensed matter. You can check our particles velocity calculator to learn about its close relative, the Boltzmann-Maxwell distribution.

Boltzmann factor

The Boltzmann factor tells us the relative probability with which two states of energies, $E_{1}$ E1 and $E_{2}$ E2 occur. Dividing the Boltzmann distribution for these two states, we find

\frac{P _{1}}{P _{2}} = e^{(E_{1} - E_{2}) / k_{B} T}

P2P1=e(E1−E2)/kBT

Here it is important to note that the relative probability depends only on the difference in energies. For example, two states of the same energy are equally probable. The other factor that plays a role in the Gibbs factor is temperature. The lower the temperature, the more probable the state of the lower energy.

Boltzmann factor calculator

With our Boltzmann factor calculator, you can test the above predictions. You can also use it to get a quantitative answer. The suitable energy scale is electronvolt ( $1eV = 1.60217 \times 1 0^{- 19} J$ 1eV=1.60217×10−19J) because the Boltzmann constant is a very small number. For example, we can ask how much more probable a state with energy $E_{1} =$ 0.1 eVE1=0.1 eV compared to a state with energy $E_{2} =$ 0.2 eVE2=0.2 eV at temperature $T =$ 0 °C (273.15 K)T=0 °C (273.15 K). It turns out that it is around $70$ 70 times more probable.

In the Boltzmann factor equation, we have to use the temperature scale in kelvins. However, in our Boltzmann factor calculator, you can use any temperature scale you want, and we will transform it to kelvins for you. Also, check out our energy conversion calculator if you are interested in learning more about how we convert energy.

The Boltzmann factor calculator brings us to the micro-world and tiny energy scales. You can check the hydrogen energy levels calculator to get more information on the energy scales of the world.

FAQs

What does the Boltzmann Factor Calculator do?: The Boltzmann factor calculator computes a relative probability of two states of a system at thermal equilibrium. Use the calculator above for instant results in your browser.
Is the Boltzmann Factor Calculator free to use?: Yes. All Try To Calculator tools are free and do not require an account.
Are my inputs stored or sent to a server?: No. Calculations run locally in your browser. We do not collect the numbers you enter or the results shown.
Can I use the Boltzmann Factor Calculator for professional decisions?: This tool is for education and quick estimates. For medical, legal, tax, or financial decisions, verify results with a qualified professional.
Where can I find related calculators?: Browse more Physics tools on Try To Calculator at /physics, or use the related calculators section on this page.

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