A simple and low-cost Fiber Optic Displacement Sensor (FODS) using reflective intensity modulation technique was developed to analyze various concentrations of Pb2+, a compound classified under heavy metal ions. Lead is harmful to the environment including to human but is used in the cosmetic field for beauty without realizing and considering the hazardousness of lead as it would cause a long-term effect. Therefore, a feasible way has been identified in this study to demonstrate the level of Pb2+ concentration in cosmetics field by employing the theory of modulation of intensity as a function of displacement sensor. The permissible limit according to Malaysian Cosmetics Guidelines and ASEAN Cosmetic Directive was 20 ppm. The concentration sensor’s system exhibits 0.0018 V/ppm sensitivity with a linearity of 96% and 94% respectively, for both peaks. Meanwhile, the sensitivity was 0.034 V/ppm for the first peak and 27.72 V/ppm for the second peak, with slope linearity of more than 96% for surface tension parameter. The credibility of these optical response curves data might be useful, especially in the cosmetic’s industrial application.
The creation of technology in this century changes people’s life. Technology plays an important role that benefits young people and has increased agriculture production’s efficiency and profitability. Innovative technology mainly involved in animal feeding automation is currently one of Smart Bran Dispensers’ new inventions. This project approaches an innovative animal husbandry management system to improve the agricultural system’s efficiency, particularly livestock nutrition and feed resources. The benefit of this project is to facilitate animal feeding for breeders, which can be remotely controlled and detected by a tracking module that transmits a signal to the user and informs them of the status of the bran dispenser through the Blynk server. NodeMCU ESP8266 and Arduino UNO were implemented as the main controller.
Surface tension is a surface characteristic that is related to the forces of molecules residing at the interface. The presence of surface active substance in biological or body fluids which adsorb at interface influences the norm surface tension value. Such the changes indicate valuable signs in the medical field, particularly in pathological states. The conventional surface tension measurements suffered several flaws including lack of dynamic control and required a direct contact with the samples. The optical method seems to be attractive and useful in the surface phenomena owing to non-contact capabilities, non-destructive procedures and required a finite sample volume. In this paper, various optical techniques for surface tension measurement are reviewed and the potential applications regarding the surface tension through the meniscus formation are well discussed. This paper finds the simplicity and credibility of the optical method offers a good opportunity in fields such as medical and diagnostic analysis for monitoring applications.