Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis

Eugene Eckstein; Baoshun Ma; Marko Leggas; Jerome Goldstein

Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis

Eugene Eckstein, Baoshun Ma, Marko Leggas, Jerome Goldstein

Pharmaceutical Sciences

Research output: Contribution to journal › Conference article › peer-review

Abstract

Translational invariance was the keystone in a method that demonstrated the nature of tracer motions in suspension flows in 50 and 100 μm channels. The experimental protocol collected related ensembles of time increments that shared a well-defined initial condition. The existence of common functional shapes suggests that the mathematics describing the erratic elements in all suspension flow is more identical than is reflected in the literature, which distinguishes among diffusion, dispersion, and anomalous diffusion.

Original language	English
Pages (from-to)	S-66
Journal	Annals of Biomedical Engineering
Volume	28
Issue number	SUPPL. 1
State	Published - 2000
Event	2000 Annual Fall Meeting of the Biomedical Engineering Society - Washington, WA, USA Duration: Oct 12 2000 → Oct 14 2000

ASJC Scopus subject areas

Biomedical Engineering

Cite this

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title = "Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis",

abstract = "Translational invariance was the keystone in a method that demonstrated the nature of tracer motions in suspension flows in 50 and 100 μm channels. The experimental protocol collected related ensembles of time increments that shared a well-defined initial condition. The existence of common functional shapes suggests that the mathematics describing the erratic elements in all suspension flow is more identical than is reflected in the literature, which distinguishes among diffusion, dispersion, and anomalous diffusion.",

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Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis. / Eckstein, Eugene; Ma, Baoshun; Leggas, Marko et al.

In: Annals of Biomedical Engineering, Vol. 28, No. SUPPL. 1, 2000, p. S-66.

Research output: Contribution to journal › Conference article › peer-review

TY - JOUR

T1 - Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis

AU - Eckstein, Eugene

AU - Ma, Baoshun

AU - Leggas, Marko

AU - Goldstein, Jerome

PY - 2000

Y1 - 2000

N2 - Translational invariance was the keystone in a method that demonstrated the nature of tracer motions in suspension flows in 50 and 100 μm channels. The experimental protocol collected related ensembles of time increments that shared a well-defined initial condition. The existence of common functional shapes suggests that the mathematics describing the erratic elements in all suspension flow is more identical than is reflected in the literature, which distinguishes among diffusion, dispersion, and anomalous diffusion.

AB - Translational invariance was the keystone in a method that demonstrated the nature of tracer motions in suspension flows in 50 and 100 μm channels. The experimental protocol collected related ensembles of time increments that shared a well-defined initial condition. The existence of common functional shapes suggests that the mathematics describing the erratic elements in all suspension flow is more identical than is reflected in the literature, which distinguishes among diffusion, dispersion, and anomalous diffusion.

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M3 - Conference article

AN - SCOPUS:0034498866

VL - 28

SP - S-66

IS - SUPPL. 1

Y2 - 12 October 2000 through 14 October 2000

ER -

Motion studies with fluorescent beads, RBC, and WBC in dilute and concentrated suspension flows indicate that the erratic transport has a common mathematical basis

Abstract

ASJC Scopus subject areas

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