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Eder José Assink Junior; Paulo Cesar de Jesus; Endler Marcel Borges – Journal of Chemical Education, 2023
Here, students determine the total protein content in whey protein samples using the Lowry assay. Quantitative analysis was carried out using absorbance measured at 750 nm (standard method) and 96-well-plate digital images obtained using smartphones (proposed method). The proposed method was carried out using two smartphones (1 and 2). Smartphone…
Descriptors: Chemistry, Science Education, Visual Aids, Handheld Devices
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Rodri´guez, FabioCorte´s; Frattini, Gianfranco; Krapp, Lucien F.; Martinez-Hung, Hassan; Moreno, Diego M.; Rolda´n, Mariana; Salomo´n, Jorge; Stemkoski, Lee; Traeger, Sylvain; Dal Peraro, Matteo; Abriata, Luciano A. – Journal of Chemical Education, 2021
Augmented/virtual realities (ARs/VRs) promise to revolutionize STEM education. However, most easy-to-use tools are limited to static visualizations, which limits the approachable content, whereas more interactive and dynamic alternatives require costly hardware, preventing large-scale use and evaluation of pedagogical effects. Here, we introduce…
Descriptors: Molecular Structure, Biochemistry, Organic Chemistry, STEM Education
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Bogucki, Ryan; Greggila, Mary; Mallory, Paul; Feng, Jiansheng; Siman, Kelly; Khakipoor, Banafsheh; King, Hunter; Smith, Adam W. – Journal of Chemical Education, 2019
Low cost, open-source analytical instrumentation has the potential to increase educational outcomes for students and enable large-scale citizen science projects. Many of these instruments rely on smartphones to collect the data, mainly because they can effectively leverage a dramatic price-to-performance ratio of the optical sensors. However,…
Descriptors: Telecommunications, Handheld Devices, Science Instruction, Chemistry