This is a multi-part message in MIME format. ---------------------- multipart/alternative attachment Hey, Alan, I noticed where that web site is generated. Good ole, Nebraska U. I didn't know what was in my own back yard, or should I say my own back swine yard. Pigs and pianos, they go together. Thanks. Richard West, University of Nebraska Alan McCoy wrote: >Actually, Chris, for a constant amount of water vapor, as temperature rises, >relative humidity decreases. Relative humidity is the amount of water vapor >in the air relative to the amount of water vapor that the air can hold at >that temperature (its saturation point). Warmer air can hold more water >vapor. > >So for example given a constant level of water vapor. The temp is 70 and the >RH is 40%. If, ....presto...., the temp is raised to 80, the RH will >decrease to around 30%. > >Check out this page for a more complete explanation: >http://ianrpubs.unl.edu/generalag/g626.htm#tpc > > > > > > > >>From: Chris Solliday <solliday@ptd.net> >>Reply-To: "College and University Technicians <caut@ptg.org>" <caut@ptg.org> >>Date: Mon, 16 Jan 2006 19:27:32 -0500 >>To: "College and University Technicians <caut@ptg.org>" <caut@ptg.org> >>Subject: Re: [CAUT] FW: Temperature/Humidity range >> >>30 - 60 % is at 68F, the humidity will rise with the temperature and vice >>versa or somethin like that. Essentially you are on the right track but you >>need to understand that humidty is RELATIVE to the temperature. Chris >>Solliday >> >> > > >_______________________________________________ >caut list info: https://www.moypiano.com/resources/#archives > > > ---------------------- multipart/alternative attachment An HTML attachment was scrubbed... URL: https://www.moypiano.com/ptg/caut.php/attachments/dc/8c/55/e9/attachment.htm ---------------------- multipart/alternative attachment--
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