Fluid-Structure Interaction for the Classroom: Interpolation, Hearts, and Swimming!
DOI10.1137/18M1209283zbMath1459.65017arXiv1808.08122MaRDI QIDQ5150213
Publication date: 10 February 2021
Published in: SIAM Review (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1808.08122
fluid-structure interactionimmersed boundary methodfluid dynamicsnumerical analysismathematical biologybiological fluid dynamicsnumerical interpolations
Numerical computation using splines (65D07) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Numerical interpolation (65D05) Biomechanics (92C10) Modeling and interdisciplinarity (aspects of mathematics education) (97M10) Numerical analysis (educational aspects) (97N40) Biology, chemistry, medicine (aspects of mathematics education) (97M60) Interpolation and approximation (educational aspects) (97N50) Mathematical software, computer programs (educational aspects) (97N80)
Related Items (1)
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Lift vs. drag based mechanisms for vertical force production in the smallest flying insects
- An elastic rod model for anguilliform swimming
- On the dynamic suction pumping of blood cells in tubular hearts
- Reynolds number limits for jet propulsion: a numerical study of simplified jellyfish
- Feeding currents of the upside down jellyfish in the presence of background flow
- Efficient kinematics for jet-propelled swimming
- The immersed boundary method
- Pulsing corals: A story of scale and mixing
- Mathematics for Human Flourishing
- IB2d Reloaded: A more powerful Python and MATLAB implementation of the immersed boundary method
- Fluid dynamics in heart development: effects of hematocrit and trabeculation
This page was built for publication: Fluid-Structure Interaction for the Classroom: Interpolation, Hearts, and Swimming!
