Moles to Energy Calculator

Formula

To calculate the Energy from Moles (\(E\)):

\[ E = \frac{mw \times n \times c^2}{1000} \]

Where:

\(E\) is the Energy from Moles (Joules)
\(mw\) is the molecular weight (g/mol)
\(n\) is the number of moles
\(c\) is the speed of light (299792458 m/s)

What is Energy from Moles?

Energy from moles is calculated using the mass-energy equivalence principle, which translates the molecular weight and quantity of a substance into a measure of energy. This calculation is crucial in fields like nuclear physics and chemistry.

Example Calculation 1

Let's assume the following values:

Molecular Weight (\(mw\)) = 18 g/mol
Number of Moles (\(n\)) = 2

Using the formula:

\[ E = \frac{18 \times 2 \times (299792458)^2}{1000} \approx 3.24 \times 10^{14} \text{ Joules} \]

The Energy from Moles is approximately \(3.24 \times 10^{14}\) Joules.

Example Calculation 2

Let's assume the following values:

Molecular Weight (\(mw\)) = 44 g/mol
Number of Moles (\(n\)) = 1

Using the formula:

\[ E = \frac{44 \times 1 \times (299792458)^2}{1000} \approx 3.96 \times 10^{15} \text{ Joules} \]

The Energy from Moles is approximately \(3.96 \times 10^{15}\) Joules.