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Molecular shape in homogeneous flows: predictions of the rouse model
D. A. Hoagland,
R. K. Prud'Homme
Chemical & Biological Engineering
Princeton Entrepreneurship Council
Princeton Institute for the Science and Technology of Materials
Research output
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Article
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peer-review
6
Scopus citations
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Dive into the research topics of 'Molecular shape in homogeneous flows: predictions of the rouse model'. Together they form a unique fingerprint.
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Mathematics
Prediction
63%
Chain
60%
Predict
55%
Hydrodynamics
40%
Model
26%
Spatial Distribution
25%
Barycentre
23%
Polymers
20%
Molecules
19%
Distribution Function
16%
Strings
16%
Configuration
15%
Influence
15%
Chemical Compounds
Molecular Shape
100%
Hydrodynamics
75%
Force
54%
Flow
51%
Distribution Function
48%
Shape
26%
Molecule
13%
Physics & Astronomy
beads
79%
drainage
48%
predictions
42%
hydrodynamics
30%
center of mass
18%
spatial distribution
17%
strings
17%
derivation
16%
distribution functions
15%
polymers
11%
configurations
10%
molecules
10%
Engineering & Materials Science
Hydrodynamics
45%
Spatial distribution
29%
Distribution functions
27%
Molecules
25%
Polymers
19%