System Upgrade on Tue, May 28th, 2024 at 2am (EDT)

Existing users will be able to log into the site and access content. However, E-commerce and registration of new users may not be available for up to 12 hours.
For online purchase, please visit us again. Contact us at customercare@wspc.com for any enquiries.

Advanced Search

SEARCH GUIDE

Narrow Results

Results: 1 - 1of1

Follow results:

per page:

Sort: Relevance

Context for search term 1Search term 1*

All Dates

LastSelect static range

Custom Range

Select starting monthSelect starting year

Select ending monthSelect ending year

Search name	Searched On	Run search
[Keyword: Fibered] AND [All Categories: Numerical & Computational Mathematics] (2)	30 Mar 2025	Run
[in Journal: Journal of Mechanics in Medicine and Biology] AND [Keyword: Nanosized] (1)	30 Mar 2025	Run
[Keyword: Epitaxy] AND [All Categories: Engineering] (7)	30 Mar 2025	Run
[in Journal: Nano] AND [Keyword: Sintering] (2)	30 Mar 2025	Run
[in Journal: Selected Topics in Electronics and Systems] AND [Keyword: Sws-srams] (1)	30 Mar 2025	Run

articleNo Access
A MATHEMATICAL MODEL FOR MICRO- AND NANO-SWIMMERS
- YUAN-QING XU,
- FANG-BAO TIAN,
- XIAO-YING TANG, and
- YU-HUA PENG
Journal of Mechanics in Medicine and Biology01 Dec 2013
Preview Abstract
In order to explore the kinetic characteristics of planktonic microorganisms and nanometer biological motors, a mathematical model is developed to estimate the hydrodynamic force in the migration of micro- and nano-swimmers by using the Laplace transformation and linear superposition. Based on the model, it is found that a micro- and nano-swimmer will enjoy a positive propulsive force by improving frequencies or generating traveling waves along its body if it is not time reversible. The results obtained in this study provide a physical insight into the behaviors of the micro- and nano-swimmer at low Reynolds numbers, and the corresponding quantitative basis can also be potentially used in the design of nanorobot and nanosized biomaterials.

1