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A <a href="/wiki/Tesla_coil" title="Tesla coil">Tesla coil</a> is a category of <a href="/wiki/Disruptive_discharge" title="Disruptive discharge" class="mw-redirect">disruptive discharge</a> <a href="/wiki/Transformer" title="Transformer">transformer</a> coils, named after their inventor, <a href="/wiki/Nikola_Tesla" title="Nikola Tesla">Nikola Tesla</a>. Tesla coils are composed of coupled <a href="/wiki/Electrical_resonance" title="Electrical resonance">resonant electric circuits</a>. Nikola Tesla actually experimented with a large variety of coils and configurations, so it is difficult to describe a specific mode of construction that will meet the wants of those who ask about "Tesla" coils. "Early coils" and "later coils" vary in configuration and setup. Tesla coils in general are very popular devices among high-voltage enthusiasts.
Selected Bio
<a href="/wiki/Gregor_Mendel" title="Gregor Mendel">Gregor Mendel</a> (1822–1884) was an <a href="/wiki/Austria" title="Austria">Austrian</a> <a href="/wiki/Monk" title="Monk">monk</a> who is often called the "father of <a href="/wiki/Genetics" title="Genetics">genetics</a>" for his study of the <a href="/wiki/Biological_inheritance" title="Biological inheritance" class="mw-redirect">inheritance</a> of <a href="/wiki/Trait_(biological)" title="Trait (biological)" class="mw-redirect">traits</a> in <a href="/wiki/Pea" title="Pea">pea</a> plants. Mendel showed that there was particular inheritance of traits according to his <a href="/wiki/Mendelian_inheritance" title="Mendelian inheritance">laws of inheritance</a>. The significance of Mendel's work was not recognized until the turn of the 20th century.
It was not until the early <a href="/wiki/20th_century" title="20th century">20th century</a> that the importance of his ideas was realized. In 1900, his work was rediscovered by <a href="/wiki/Hugo_de_Vries" title="Hugo de Vries">Hugo de Vries</a>, <a href="/wiki/Carl_Correns" title="Carl Correns">Carl Correns</a>, and <a href="/wiki/Erich_von_Tschermak" title="Erich von Tschermak">Erich von Tschermak</a>. His results were quickly replicated, and genetic linkage quickly worked out. Biologists flocked to the theory, as while it was not yet applicable to many phenomena, it sought to give a <a href="/wiki/Genotype" title="Genotype">genotypic</a> understanding of heredity which they felt was lacking in previous studies of heredity which focused on <a href="/wiki/Phenotype" title="Phenotype">phenotypic</a> approaches.
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