Jennifer Gilbertson scite author profile

We present a laboratory experiment that introduces high school chemistry students to microfluidics while teaching fundamental properties of acid–base chemistry. The procedure enables students to create microfluidic systems using nonspecialized equipment that is available in high school classrooms and reagents that are safe, inexpensive, and commercially available. The experiment is designed to ignite creativity and confidence about experimental design in a high school chemistry class. This experiment requires a computer program (e.g., PowerPoint), Shrinky Dink film, a readily available silicone polymer, weak acids, bases, and a colorimetric pH indicator. Over the span of five 45-min class periods, teams of students design and prepare devices in which two different pH solutions mix in a predictable way to create five different pH solutions. Initial device designs are instructive but rarely optimal. During two additional half-class periods, students have the opportunity to use their initial observations to redesign their microfluidic systems to optimize the outcome. The experiment exposes students to cutting-edge science and the design process, and solidifies introductory chemistry concepts including laminar flow, neutralization of weak acids–bases, and polymers.

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Defining patient acceptable symptom state thresholds for commonly used patient reported outcomes measures in general orthopedic practice

Wright

Hensley

Gilbertson

et al. 2015

Manual Therapy

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Understanding the roles of physical therapists on the care team: An interprofessional education experience for first-year medical students

Mozer¹,

Gilbertson²,

Robinson³

et al. 2021

Journal of Interprofessional Education & Practice

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