Difference between revisions of "Spark Experiments"
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− | Bert Schreiber subjected Mylar? (aluminum-coated plastic) strips to various forms of electrical stresses and observed the outcomes. Some patterns occurred repeatedly, others could not he duplicated, but all supply insight into the curious nature of electricity Sending a spark through the material blew the aluminum film off the plastic in a variety of intriguing patterns that raise more questions than answers about electricity.[[Category:Scientific Paper]] | + | Bert Schreiber subjected Mylar? (aluminum-coated plastic) strips to various forms of electrical stresses and observed the outcomes. Some patterns occurred repeatedly, others could not he duplicated, but all supply insight into the curious nature of electricity Sending a spark through the material blew the aluminum film off the plastic in a variety of intriguing patterns that raise more questions than answers about electricity. |
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+ | [[Category:Scientific Paper|spark experiments]] |
Latest revision as of 11:05, 1 January 2017
Scientific Paper | |
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Title | Spark Experiments |
Author(s) | Bert Schreiber |
Keywords | discharge, discharge geometry, discharge path, Mylar, spark |
Published | 1997 |
Journal | Electric Spacecraft Journal |
Number | 20 |
Pages | 26-31 |
Abstract
Bert Schreiber subjected Mylar? (aluminum-coated plastic) strips to various forms of electrical stresses and observed the outcomes. Some patterns occurred repeatedly, others could not he duplicated, but all supply insight into the curious nature of electricity Sending a spark through the material blew the aluminum film off the plastic in a variety of intriguing patterns that raise more questions than answers about electricity.