Difference between revisions of "Bursting of soap films. I. An experimental study"
From Soft-Matter
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== Soft Matter Keywords == | == Soft Matter Keywords == | ||
| − | + | soap film, inertia regime | |
| − | [[Image:McEntee-1.jpg|200px|thumb|right|Figure 1. | + | [[Image:McEntee-1.jpg|200px|thumb|right|Figure 1. Top row shows a series of high-speed flash photographs of bursting films taken in reflected light. Delay between perforating spark and illuminating flash (film thickness): a) 75 microseconds (.28 microns), b) 250 microseconds (.43 microns), c) 200 microseconds (.01 microns). Bottom row shows scattered light images of a bursting film. Delay and film thickness: a) 900 microseconds (3.4 microns), b) 320 microseconds (.029 microns).]] |
[[Image:McEntee-2.jpg|200px|thumb|right|Figure 2. adfasdf]] | [[Image:McEntee-2.jpg|200px|thumb|right|Figure 2. adfasdf]] | ||
[[Image:McEntee-3.jpg|200px|thumb|right|Figure 3. adfasdf]] | [[Image:McEntee-3.jpg|200px|thumb|right|Figure 3. adfasdf]] | ||
Revision as of 18:03, 1 May 2009
"Bursting of soap films. I. An experimental study"
Winnie R. McEntee, & Karol J. Mysels
Journal of Physical Chemistry 73(9) 3018-3028 (1969)
Soft Matter Keywords
soap film, inertia regime
Figure 1. Top row shows a series of high-speed flash photographs of bursting films taken in reflected light. Delay between perforating spark and illuminating flash (film thickness): a) 75 microseconds (.28 microns), b) 250 microseconds (.43 microns), c) 200 microseconds (.01 microns). Bottom row shows scattered light images of a bursting film. Delay and film thickness: a) 900 microseconds (3.4 microns), b) 320 microseconds (.029 microns).
written by Donald Aubrecht
