Kármán Vortex Street: A Collaboration Between Fluid Mechanics Professor Jesse Capecelatro And Choreographer Veronica Stanich

Karman Vortex Street

Interdisciplinary collaboration Kármán Vortex Street is teaching students the principles of fluid dynamics, with dance (Image Courtesy University of Michigan)

Veronica Stanich also wrote about an early phase of her collaboration with Jesse Capecelatro in May, 2018.

(Seattle) – A collaboration at University of Michigan is taking a unique approach to fluid mechanics by teaching it through dance. Fluid mechanics professor Jesse Capecelatro and choreographer Veronica Stanich, both from the University of Michigan, teamed up to create Kármán Vortex Street, a dance improvisation guided by physics properties.

“Social dances, such as tango, have a collection of rules that maintain structure, both collectively among all dancers and individually between pairs of dancers, that enable a coherent flow,” said Capecelatro. “Examples include the specific connection and embrace between dancers, maintaining a line of dance, establishing an axis of rotation during turns, and so on. A similar set of rules exists in fluid mechanics.”

Capecelatro discussed what makes dance and mechanics such an unlikely but complementary pair at the Washington State Convention Center in Seattle on Nov. 25. The talk was a part of the American Physical Society’s Division of Fluid Dynamics 72nd Annual Meeting, which is one of the largest gatherings in the world for fluid dynamics.

Kármán Vortex Street (Trailer) – A Physics-Constrained Dance Improv

Merging physics and choreography was tricky. Capelcelatro said he spent time teaching basic principles in fluid mechanics to the dancers.

“The difficulty comes in attempting to simultaneously capture the relevant physics while keeping the dance interesting and aesthetic to watch,” he said. “In the end, we produced a ‘physics-constrained improvisation,’ in which Veronica had complete freedom over the structure of the dance as long as a certain set of ‘rules’ I provided were met.”

Though the collaboration is still in its early stages, Capecelatro will also discuss how they plan to assess Kármán Vortex Street’s impact on students understanding of fluid mechanics.

“The dance was filmed last winter, and I am currently working with a videographer at the University of Michigan to put it all together,” said Capecelatro. “The goal is to produce a 5-8 minute educational video that demonstrates flow past a cylinder at varying Reynolds numbers through dance. The video will be available to the larger fluid dynamics community to use in the classroom.”


Main meeting website: apsdfd2019.org


At the Annual Meeting, The Gallery of Fluid Motion will consist of posters and videos submitted by attendees illustrating the science and beauty of fluid motion. More information can be found here: apsdfd2019.org/gallery-of-fluid-motion


The Division of Fluid Dynamics of the American Physical Society, established in 1947, exists for the advancement and diffusion of knowledge of the physics of fluids with special emphasis on the dynamical theories of the liquid, plastic and gaseous states of matter under all conditions of temperature and pressure.

For more information about DFD, visit: aps.org/units/dfd


The American Physical Society (APS) is a nonprofit membership organization working to advance and diffuse the knowledge of physics through its outstanding research journals, scientific meetings, and education, outreach, advocacy, and international activities. APS represents over 55,000 members, including physicists in academia, national laboratories, and industry in the United States and throughout the world.

For more information about APS, visit aps.org

Press Release Via: The American Physical Society

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