This paper describes the implementation of an axisymmetric drop shape apparatus for the measurement of surface or interfacial tension of a hanging liquid drop, using only cheap resources like a common web camera and a single-board microcomputer. The mechanics of the apparatus is composed of stubs of commonly available aluminium bar, with all other mechanical parts manufactured with an amateur 3D printer. All of the required software, either for handling the camera and taking the images, or for processing the drop images to get the drop profile and fit it with the Bashforth and Adams equation, is freely available under an open source license. Despite the very limited cost of the whole setup, an extensive test has demonstrated an overall accuracy of ±0.2% or better.
Implementation of an axisymmetric drop shape apparatus using a Raspberry-Pi single-board computer and a web camera / antonio orlando. - In: EUROPEAN JOURNAL OF PHYSICS. - ISSN 0143-0807. - STAMPA. - (2018), pp. 1-17. [10.1088/1361-6404/aabda6]
Implementation of an axisymmetric drop shape apparatus using a Raspberry-Pi single-board computer and a web camera
ORLANDO, ANTONIO
2018
Abstract
This paper describes the implementation of an axisymmetric drop shape apparatus for the measurement of surface or interfacial tension of a hanging liquid drop, using only cheap resources like a common web camera and a single-board microcomputer. The mechanics of the apparatus is composed of stubs of commonly available aluminium bar, with all other mechanical parts manufactured with an amateur 3D printer. All of the required software, either for handling the camera and taking the images, or for processing the drop images to get the drop profile and fit it with the Bashforth and Adams equation, is freely available under an open source license. Despite the very limited cost of the whole setup, an extensive test has demonstrated an overall accuracy of ±0.2% or better.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.