User contributions for Jasonkim
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7 June 2023
- 19:1619:16, 7 June 2023 diff hist +5 Microfluidic Sensing- Liquid Metal Sensors - Jason Kim →Fabrication Techniques current
- 19:1519:15, 7 June 2023 diff hist −37 Microfluidic Sensing- Liquid Metal Sensors - Jason Kim →Injection
28 May 2023
- 03:2903:29, 28 May 2023 diff hist 0 Microfluidic Sensing- Liquid Metal Sensors - Jason Kim No edit summary
- 03:2803:28, 28 May 2023 diff hist +5,601 Microfluidic Sensing- Liquid Metal Sensors - Jason Kim No edit summary
9 May 2023
- 12:0512:05, 9 May 2023 diff hist +807 Microfluidic Sensing- Liquid Metal Sensors - Jason Kim →Fabrication Techniques
16 April 2023
- 18:2818:28, 16 April 2023 diff hist +6,888 N Microfluidic Sensing- Liquid Metal Sensors - Jason Kim Created page with "{{Template:CHEM-ENG590E}} =Liquid Metal Sensors= Liquid metal sensors are sensors that utilize liquid metal in their circuits. Typically liquid metal is used for properties such as flexibility, ability to be stretched, ease of application and various other magnetic, thermal, or electrochemical properties. <sup>https://pubs.acs.org/doi/10.1021/acssensors.1c02606 1</sup> Typical sensors use solid metal in their circuits and so have limited geometry as well as a static..."
- 14:2014:20, 16 April 2023 diff hist +96 CHEM-ENG590E:Wiki Textbook →Chapter 11 - Sensing
2 April 2023
- 16:1616:16, 2 April 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number in Microscopic Flow current
- 16:1616:16, 2 April 2023 diff hist +28 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number in Microscopic Flow
26 March 2023
- 17:5117:51, 26 March 2023 diff hist +555 Reynolds Number (Re) - Blayne Sarazin →References
- 17:0317:03, 26 March 2023 diff hist −16 Reynolds Number (Re) - Blayne Sarazin →In Physiology (Hemodynamics)
- 17:0217:02, 26 March 2023 diff hist −8 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number
- 16:5816:58, 26 March 2023 diff hist +79 Reynolds Number (Re) - Blayne Sarazin →References
- 16:5416:54, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →In Physiology (Hemodynamics)
- 16:5316:53, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →In Physiology (Hemodynamics)
- 16:5216:52, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →References
- 16:5016:50, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number in Microscopic Flow
- 16:4916:49, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number in Microscopic Flow
- 16:4716:47, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number in Microscopic Flow
- 16:4616:46, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Turbulent
- 16:4616:46, 26 March 2023 diff hist +1 Reynolds Number (Re) - Blayne Sarazin →Laminar
- 16:4516:45, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Definition
- 16:4516:45, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Duct
- 16:4416:44, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Turbulent
- 16:4416:44, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Transitional (transient)
- 16:4416:44, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Laminar
- 16:4316:43, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Definition
- 16:4116:41, 26 March 2023 diff hist −1 Reynolds Number (Re) - Blayne Sarazin →Definition
- 16:4116:41, 26 March 2023 diff hist +1 Reynolds Number (Re) - Blayne Sarazin →Turbulent
- 15:5515:55, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →Reynolds Number
- 15:5415:54, 26 March 2023 diff hist −1 Reynolds Number (Re) - Blayne Sarazin →Laminar
- 15:5315:53, 26 March 2023 diff hist 0 Reynolds Number (Re) - Blayne Sarazin →In Physiology (Hemodynamics)
- 15:5315:53, 26 March 2023 diff hist +4 Reynolds Number (Re) - Blayne Sarazin →References