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Mathematical modelling of cilia-driven transport of biological fluids
David Smith
, Eamonn Gaffney, John Blake
Mathematics
Research output
:
Contribution to journal
›
Article
26
Citations (Scopus)
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Dive into the research topics of 'Mathematical modelling of cilia-driven transport of biological fluids'. Together they form a unique fingerprint.
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Weight
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Mathematics
Rheology
79%
Mathematical Modeling
76%
Relaxation Time
69%
Fluid
59%
Particle Transport
56%
Liquid
37%
Moment
26%
Viscoelastic Flow
25%
Beat
25%
Clearance
24%
Symmetry Breaking
23%
Exponential Decay
20%
Fundamental Solution
19%
Numerical Algorithms
18%
Mathematical Model
14%
Motion
13%
Three-dimensional
13%
Vertex of a graph
10%
Model
6%
Physics & Astronomy
rheology
60%
bending moments
50%
relaxation time
45%
fluids
45%
slender bodies
28%
clearances
22%
liquid surfaces
22%
viscoelasticity
21%
broken symmetry
17%
synchronism
16%
mathematical models
15%
sensitivity
11%
decay
10%
liquids
10%
Engineering & Materials Science
Relaxation time
100%
Rheology
87%
Bending moments
53%
Fluids
49%
Liquids
34%
Mathematical models
17%