Aqueous solutions of agar show a sol-gel transition temperature in the range from 32 • C to 47 • C depending on colloid concentration; however, the width of the transition and the subsequent process occurring after it, are not well understood. In this work the sol-gel transition of agar is studied by a simple optical method. It consists of the illumination of the sample using a non-coherent light source and the monitoring of transmitted light using a photodiode. It is shown that during the sol-gel transition, the transmitted light decays over a broad range of temperature. Simultaneously, it is possible to observe that fluctuations in the transmitted light decrease along the sol-gel transition, and at a specific temperature, they become very small. Based on these observations, the sol-gel transition temperature for three different concentrations of agar (0.5, 1.5, and 2.5% w/v) is determined. These results are compared with the sol-gel transition temperature values provided by the conventional rheological method.
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