Electrochemistry is broad and interdisciplinary by nature and as such has become a powerful tool in science, technology, engineering, math, and medical (STEMM) fields ranging from energy storage to biotechnology. However, traditional undergraduate chemistry education does not offer students the opportunity to create direct connections between topics learned in a lecture course and applications beyond the examples depicted in textbooks. Here, we offer a framework that introduces learners to hands-on cyclic voltammetry in a general chemistry laboratory course setting or in outreach activities. In 2−4 h, learners practice electrode care, data acquisition, and the pattern recognition needed for discerning reversible, quasireversible, and irreversible solution-phase redox events.