In <a href="/page/gas+laws" target="_self">gas laws</a>, <b>Boyle-Charles law</b> refers to the combination of <a href="/page/Boyle%E2%80%99s+law" target="_self">Boyle&rsquo;s law</a> (1969): <br><br><blockquote><blockquote>  </blockquote><img alt="PV = K\mid_{n,T} \," class="tex" src="http://image.wikifoundry.com/image/3/eUKpLGBLzSoCp1aJ1gFm8Q537" title="PV = K\mid_{n,T} \,"></blockquote><br>and <a href="/page/Charles%E2%80%99+law" target="_self">Charles&rsquo; law</a> (1787):<br><br><blockquote><blockquote>  </blockquote><img alt="V = KT\mid_{n,P} \," class="tex" src="http://image.wikifoundry.com/image/3/rw2pMQJ7j7ew3_vX4Sx4Tg588" title="V = KT\mid_{n,P} \,"> </blockquote><br>into a single gas law formula, of which several varieties seem to exist. A derivation still needs to be found as to the typical way in which these two equations are combined.<br><br>To cite one example, however, <font color="#000000">in one 1890 publication, the phrase &ldquo;ideal perfect gas&rdquo; was   being  used in relation to gases that obeyed the &#39;laws of Charles and   Boyle&#39; (or Boyle-Charles law), as  defined by the following   &ldquo;characteristic equation&rdquo;: </font>[1]<br><br><blockquote><img alt="\frac{PV}{T} = K\," class="tex" src="http://image.wikifoundry.com/image/3/4McKsSneifpHY9Py-WqpVg529" title="\frac{PV}{T} = K\,"></blockquote><br>which   says that the ratio of the product of the <a href="/page/pressure" target="_self">pressure</a> and the <a href="/page/volume" target="_self">volume</a> of the gas by the <a href="/page/temperature" target="_self">temperature</a> is constant   for in ideal perfect gas. The term &#39;<a href="/page/perfect" target="_self">perfect</a>&#39; in this case a   residual carry-over from the earlier days of attempts to make a &#39;perfect   vacuum&#39; (<a href="/page/perfect+gas" target="_self">perfect gas</a>)   in <a href="/page/gunpowder+engine" target="_self">gunpowder   engine</a>. In most cases the phrase Boyle-Charles law was a precursor  synonym for the later term &#39;ideal gas law&#39;, which arrived after the  concept of the mole or particle count unit <i>n</i> was invented. In short, the name Boyle-Charles law, in general sense, seems to be a layperson&#39;s term used as a synonym for the <a href="/page/ideal+gas+law" target="_self">ideal gas law</a>.<br><br><font face="Impact" size="4">References</font><br>1. Robinson, William. (1890). <i>Gas and Petroleum Engines: A Practical  Treatise on the Internal Combustion Engine</i>,<i> </i>(<a class="external" href="http://books.google.com/books?id=8e9MAAAAMAAJ&pg=PA422&dq=ideal+perfect+gas&lr=&ei=0BXESOP6EpSSjgGdl8TrDQ" rel="nofollow" target="_blank"><font color="#800080">pg. 422</font></a>).  E. &amp; F.N. Spon. <br><br><div align="center"><div align="center"><div align="center"><div align="center">  <div align="center"><div align="center">  <div align="center"><a href="/page/%CE%B8%E2%88%86ics" target="_self"><img align="bottom" alt="TDics icon ns" height="31" src="http://image.wikifoundry.com/image/1/_zpkwDViWzKHeh3XrOqk3Q8688/GW69H31" title="TDics icon ns" width="69"></a></div></div></div></div></div></div></div><br>