The Beer-Lambert Law Calculator is a powerful tool designed to simplify the calculation process involved in the Beer-Lambert Law, a fundamental principle in spectroscopy. This law establishes a relationship between the concentration of a substance in a solution, the path length of light through the solution, and the absorbance of light by the substance.
The Beer-Lambert Law, also known as Beer's Law, quantitatively relates the concentration of a solute in a solution to the absorbance of light by that solution. It's expressed as A = εcl, where A is the absorbance, ε is the molar absorptivity (or extinction coefficient), c is the concentration, and l is the path length.
Using the Beer-Lambert Law Calculator simplifies complex calculations involved in determining the concentration of a solution based on its absorbance. It saves time and reduces the likelihood of errors, making it an invaluable tool for students and professionals in chemistry, biochemistry, and related fields.
The Beer-Lambert Law Calculator is used whenever there's a need to determine the concentration of a solution based on its absorbance or vice versa. It's commonly applied in spectroscopic experiments, environmental analysis, pharmaceutical research, and quality control processes.
The Beer-Lambert Law Calculator finds application in various settings such as laboratories, research facilities, educational institutions, and industrial environments where precise concentration measurements are essential for accurate analysis and decision-making.
The formula for the Beer-Lambert Law is expressed as
A = ε × c × l
- where:
- A is the absorbance,
- ε is the molar absorptivity (or extinction coefficient),
- c is the concentration, and
- l is the path length.
Absorbance (A): 0.5
Molar Absorptivity (ε): 500 L mol⁻¹ cm⁻¹
Path Length (l): 1 cm
Concentration (c) = A / (ε × l) = 0.5 / (500 × 1) = 0.001 mol/L
Absorbance (A): 0.8
Molar Absorptivity (ε): 1000 L mol⁻¹ cm⁻¹
Path Length (l): 2 cm
Concentration (c) = A / (ε × l) = 0.8 / (1000 × 2) = 0.0004 mol/L
Absorbance (A): 1.2
Molar Absorptivity (ε): 750 L mol⁻¹ cm⁻¹
Path Length (l): 0.5 cm
Concentration (c) = A / (ε × l) = 1.2 / (750 × 0.5) = 0.0032 mol/L