Tabak, A. F. 2018. Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications. Advanced Theory and Simulations , vol.1, no.4 .

Tabak, A. F., (2018). Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications. Advanced Theory and Simulations , vol.1, no.4.

Tabak, AHMET. "Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications," Advanced Theory and Simulations , vol.1, no.4, 2018

Tabak, AHMET F. . "Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications." Advanced Theory and Simulations , vol.1, no.4, 2018

Tabak, A. F. (2018) . "Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications." Advanced Theory and Simulations , vol.1, no.4.

@article{article, author={AHMET FATİH TABAK}, title={Hydrodynamic Impedance of Bacteria and Bacteria-Inspired Micro-Swimmers: A New Strategy to Predict Power Consumption of Swimming Micro-Robots for Real-Time Applications}, journal={Advanced Theory and Simulations}, year=2018}