Variable wind speed and evaporation rates: a practical and modelling exercise for high school physics and multi-strand science classes
Article
Article Title | Variable wind speed and evaporation rates: a practical and modelling exercise for high school physics and multi-strand science classes |
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ERA Journal ID | 22303 |
Article Category | Article |
Authors | Schouten, Peter (Author), Lemckert, Charles (Author), Parisi, Alfio (Author), Downs, Nathan (Author), Underhill, Ian (Author) and Turner, Geoff (Author) |
Journal Title | Teaching Science: The Journal of the Australian Science Teachers Association |
Journal Citation | 57 (2), pp. 47-51 |
Number of Pages | 5 |
Year | 2011 |
Publisher | Australian Science Teachers Association |
Place of Publication | Canberra, Australia |
ISSN | 1442-5556 |
1449-6313 | |
1839-2946 | |
Web Address (URL) | http://www.asta.edu.au/resources/teachingscience |
Abstract | With the recent onset of drought conditions throughout many regions of Australia and across the world, a greater amount of interest has been placed on the measurement and modelling of evaporation rates in real-world environments such as agricultural dams and drinking water reserves. Coinciding with this, substantial amounts of research work have been carried out detailing increasingly accurate methods to both measure and predict evaporative losses from water reserves along with the development of innovative techniques and technologies to suppress and mitigate water evaporation. Some examples of these techniques include fixed covers, floating covers, wind breaks along with chemical films and monolayers. The following practical exercise aims to give senior high school Physics and multi-strand science students an insight into how evaporation measurements can be made and compared with modelled data to verify their accuracy by employing local wind velocity, temperature (air and water) and water vapour (humidity) information. In addition to this, this exercise shows how publicly available chemical films based on substances such as silicon, cetyl alcohol and stearyl alcohol can be utilised to reduce evaporation. An analysis of film performance under varying wind velocities will be detailed for replication by students in the laboratory. |
Keywords | solar radiation; evaporation; practical; monolayers; wind speed |
ANZSRC Field of Research 2020 | 519999. Other physical sciences not elsewhere classified |
390113. Science, technology and engineering curriculum and pedagogy | |
390306. Secondary education | |
Public Notes | File reproduced in accordance with the copyright policy of the publisher/author. |
Byline Affiliations | Centre for Rural and Remote Area Health |
Griffith University | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q0w9x/variable-wind-speed-and-evaporation-rates-a-practical-and-modelling-exercise-for-high-school-physics-and-multi-strand-science-classes
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