Connecting Active Artwork to Chemistry: Leading Students in Inquiry-Based Learning of Density and Viscosity

Ochs, Alex; Dee, Julianne M.; Arnold, Anne M.; Barber, Katelyn A.; Zovinka, Edward P.

doi:10.1021/acs.jchemed.3c00277

J. Chem. Educ.

2023

DOI: 10.1021/acs.jchemed.3c00277

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Connecting Active Artwork to Chemistry: Leading Students in Inquiry-Based Learning of Density and Viscosity

Alex Ochs

Julianne M. Dee

Anne M. Arnold

et al.

Abstract: At its simplest, paint pouring is the mixing of paints with lower density and viscosity liquids and then pouring them onto a surface for an aesthetic artifact. Using active art as a teaching tool, middle school students were engaged in a paint pouring activity to study the influence of the interdisciplinary combination of chemistry and art topics on student understanding of density, viscosity, and creativity. It is accepted that hands-on activities increase the understanding of complex topics because students … Show more

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2024

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Cited by 2 publications

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Classic Ubbelöhde Intrinsic Viscosity Laboratory Exercise Made Simple and Fast

Copenhaver,

Pennell,

Jain

et al. 2024

J. Chem. Educ.

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Intrinsic viscosity is a foundational concept in a student's understanding of macromolecular structures and solution behavior. Its measurement through simple laboratory techniques can teach undergraduate students the importance of accuracy and precision while learning concepts in polymer science such as hydrodynamic volume and the dependence of viscosity on concentration, density, and mass as well as mathematical principles such as the Taylor series and l'Hopital's rule. Only simple and inexpensive equipment is required, but the measurements consume much time and can frustrate both students and instructors. We propose a faster method for conducting intrinsic viscosity measurements for polystyrene in toluene without forfeiting any of the valuable lessons provided in a traditional intrinsic viscosity experiment. Splitting students into teams where each use their own viscometer to measure flow times of a single solution concentration allows for the measurement of multiple concentrations at once. This practice also eliminates the need for long-term and precise temperature control and diluting (or cleaning and purging) of viscometers between different concentrations. Results from each team can be combined, allowing students to analyze one another's data and make decisions on exclusion of erroneous measurements, data fitting, and uncertainty analyses. Choosing a polymer in pellet form reduces congestion at the analytical balance and provides valuable lessons in refractive index matching and the torpid diffusion/dissolution of entangled macromolecules. In this method, students can learn the same fundamental concepts in polymer science and critical data analysis in a much faster and less frustrating manner.

show abstract

Classic Ubbelöhde Intrinsic Viscosity Laboratory Exercise Made Simple and Fast

Copenhaver,

Pennell,

Jain

et al. 2024

J. Chem. Educ.

View full text Add to dashboard Cite

show abstract

Exploring Density in a New Way: A Problem-Solving Activity with Increasing Complexity, Based on Length Measurements

Neffat,

Bonomi

2024

J. Chem. Educ.

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Connecting Active Artwork to Chemistry: Leading Students in Inquiry-Based Learning of Density and Viscosity

Cited by 2 publications

References 23 publications

Classic Ubbelöhde Intrinsic Viscosity Laboratory Exercise Made Simple and Fast

Classic Ubbelöhde Intrinsic Viscosity Laboratory Exercise Made Simple and Fast

Exploring Density in a New Way: A Problem-Solving Activity with Increasing Complexity, Based on Length Measurements

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