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Main Author: Wadati, Hiroki
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.04163
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author Wadati, Hiroki
author_facet Wadati, Hiroki
contents I describe a visually engaging experiment to demonstrate the Beer-Lambert law in introductory physics or general science courses. By using diluted tomato juice as a naturally colored absorber and a halogen lamp as a broadband light source, students can explore how light attenuation depends on concentration and wavelength. The activity connects the optical concept of exponential absorption with everyday materials, making it accessible for classrooms with limited resources. Transmission spectra obtained with a compact spectrometer reveal a strong absorption band around 500 nm, corresponding to the green-blue region absorbed by lycopene. Plotting absorbance against concentration allows students to confirm linear behavior at low concentrations and to discuss deviations at higher ones. The experiment emphasizes conceptual understanding of light-matter interaction, quantitative data analysis, and the limitations of ideal laws, providing a memorable learning experience in optics and spectroscopy.
format Preprint
id arxiv_https___arxiv_org_abs_2509_04163
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Teaching light absorption and the Beer-Lambert law using everyday materials: a tomato juice experiment for introductory physics
Wadati, Hiroki
Physics Education
I describe a visually engaging experiment to demonstrate the Beer-Lambert law in introductory physics or general science courses. By using diluted tomato juice as a naturally colored absorber and a halogen lamp as a broadband light source, students can explore how light attenuation depends on concentration and wavelength. The activity connects the optical concept of exponential absorption with everyday materials, making it accessible for classrooms with limited resources. Transmission spectra obtained with a compact spectrometer reveal a strong absorption band around 500 nm, corresponding to the green-blue region absorbed by lycopene. Plotting absorbance against concentration allows students to confirm linear behavior at low concentrations and to discuss deviations at higher ones. The experiment emphasizes conceptual understanding of light-matter interaction, quantitative data analysis, and the limitations of ideal laws, providing a memorable learning experience in optics and spectroscopy.
title Teaching light absorption and the Beer-Lambert law using everyday materials: a tomato juice experiment for introductory physics
topic Physics Education
url https://arxiv.org/abs/2509.04163