-- Posted by sLyDeWaIzE at 2:10 pm on Jan. 4, 2009 It's been a while since I learned the Gas Laws and now I need one of them to write a scholarship essay. I thought I remembered one of them pertaining to an ideal gas at a constant volume in which temperature and pressure differ? Is this right? Can anyone tell me what law this is? -- Posted by matto at 2:11 pm on Jan. 4, 2009 PV/T = PV/T or some shit fuck chemistry dude -- Posted by Anonymous at 2:12 pm on Jan. 4, 2009 http://www.csnews.com/csn/petroleum/article_display.jsp?vnu_content_id=1003921122 -- Posted by marshmellowman at 2:15 pm on Jan. 4, 2009 Boyle's law = For a constant amount of an ideal gas kept at a constant temperature, pressure and volume are inversely proportional. (PV = k) Charles' law = At constant pressure, the volume of a given mass of an ideal gas increases or decreases by the same factor as its temperature (in Kelvin) increases (k = V/T). Gay-Lussac's law = The pressure of a constant mass and constant volume of a gas is directly proportional to the gas's temperature. (P/T = k) -- Posted by matto at 2:17 pm on Jan. 4, 2009 Oh yeah, PV=nRT also -- Posted by Jessica Anker at 2:18 pm on Jan. 4, 2009 http://pages.towson.edu/ladon/gases.html -- Posted by HuffleHaire at 2:23 pm on Jan. 4, 2009 PV=nRT -- Posted by sLyDeWaIzE at 3:12 pm on Jan. 4, 2009 thanks guys, the law I was looking for was the Guy-Lussac Law