On the effect of the internal friction of fluids on the motion of pendulums

E620769

"On the Effect of the Internal Friction of Fluids on the Motion of Pendulums" is an 1851 scientific paper by George Gabriel Stokes that laid the foundations of fluid dynamics by analyzing viscous forces and leading to what is now known as Stokes' law.

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Predicate Object
instanceOf scientific paper
author George Gabriel Stokes NERFINISHED
contribution introduced analysis leading to Stokes law for drag on a sphere
laid foundations of low-Reynolds-number fluid dynamics
provided theoretical treatment of viscous forces on oscillating bodies
related damping of pendulum motion to fluid viscosity
countryOfOrigin United Kingdom
era 19th-century physics
field fluid dynamics
hydrodynamics
historicalSignificance bridged experimental observations of damping with theoretical fluid mechanics
helped establish mathematical framework for viscous flow
influenced Stokes law NERFINISHED
development of continuum mechanics of viscous fluids
later studies of sedimentation and particle motion in fluids
theory of creeping flow
language English
mainSubject internal friction of fluids
motion of pendulums in fluids
viscosity
viscous drag
notableFor early rigorous treatment of viscous forces in fluid motion
historically important in the development of fluid dynamics
publicationYear 1851
relatedConcept drag force on a sphere
linear relationship between drag and velocity at low Reynolds number
viscous damping
topic damping of oscillations by viscous fluids
mathematical modeling of viscous resistance
relationship between fluid viscosity and decay of pendulum amplitude

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Stokes notableWork On the effect of the internal friction of fluids on the motion of pendulums
subject surface form: George Gabriel Stokes