AbstractComplementary key elements of meteorological education are the provision of a thorough theoretical understanding of the physical laws governing atmospheric motions, and the hands-on investigation and visualization of specific weather systems. However, the latter task is technically challenging, because specific skills must be acquired for flexibly handling meteorological data. Some examples are superimposing satellite pictures and reanalysis fields, producing an isentropic potential vorticity (PV) map, and visualizing a vertical section across a flow feature of interest. Although learning these technical issues has its own merits, it can distract students from investigating the complexities of meteorology. This experience from teaching beginner classes in synoptic meteorology at ETH Zurich and the University of Mainz was the main motivation for developing the educational software tool IWAL, the Interactive Weather Analysis Laboratory. IWAL is designed as a web application for easy, fast, and inter...
[1]
C. Appenzeller,et al.
Structure of stratospheric intrusions into the troposphere
,
1992,
Nature.
[2]
Maria C. Neves,et al.
Modellus: Interactive computational modelling to improve teaching of physics in the geosciences
,
2013,
Comput. Geosci..
[3]
H. Dacre,et al.
An Extratropical Cyclone Atlas: A Tool for Illustrating Cyclone Structure and Evolution Characteristics
,
2012
.
[4]
Heini Wernli,et al.
A Lagrangian‐based analysis of extratropical cyclones. I: The method and some applications
,
1997
.
[5]
Michael J. Prince,et al.
Does Active Learning Work? A Review of the Research
,
2004
.
[6]
M J M Saraber,et al.
A modern teaching tool for cyclone development and structure
,
2007
.
[7]
Andrew Kos,et al.
Developing capacity for natural hazard management using an active learning approach and web-based geographical information
,
2009
.