On the theories of the internal friction of fluids in motion

E620768

"On the theories of the internal friction of fluids in motion" is a foundational scientific paper by George Gabriel Stokes that established key principles of fluid dynamics and viscosity, leading to what is now known as the Navier–Stokes equations.

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Predicate Object
instanceOf scientific paper
academicAffiliationOfAuthor University of Cambridge NERFINISHED
author George Gabriel Stokes NERFINISHED
basedOn Newtonian mechanics NERFINISHED
continuum hypothesis for fluids
canonicalStatus classic paper in fluid dynamics
citedBy 20th century fluid mechanics textbooks
later works on Navier–Stokes existence and smoothness
contributedTo Navier–Stokes equations NERFINISHED
Stokes flow theory NERFINISHED
linear constitutive law for Newtonian fluids
mathematical formulation of viscous fluid flow
modern theory of viscosity
countryOfOrigin United Kingdom
discipline applied mathematics
theoretical physics
era Victorian era science
field continuum mechanics NERFINISHED
fluid dynamics
viscosity theory
hasAuthorFullName Sir George Gabriel Stokes NERFINISHED
historicalSignificance foundational work in viscous fluid dynamics
helped establish the modern form of the Navier–Stokes equations
major contribution to 19th century mathematical physics
influenced applied mathematics
development of hydrodynamics in the 19th century
engineering fluid mechanics
language English
mainConcept linear relation between stress tensor and velocity gradient
proportionality of viscous stress to rate of strain in Newtonian fluids
viscosity as a material property of fluids
originalMedium print
publicationDecade 1840s
publicationYear 1845
publishedIn Transactions of the Cambridge Philosophical Society NERFINISHED
relatedTo Navier's earlier work on viscous fluids
Stokes' law for low Reynolds number flow NERFINISHED
status public domain
timePeriodDescribed 19th century fluid mechanics
topic boundary conditions for viscous flow
equations of motion for viscous fluids
internal friction of fluids
laminar flow of viscous fluids
relationship between pressure, velocity, and viscosity
viscous stresses in fluids

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Stokes notableWork On the theories of the internal friction of fluids in motion
subject surface form: George Gabriel Stokes