From chemistry-request:~at~:server.ccl.net Sat Jul 20 11:43:04 2002 Received: from buffy.cs.uoguelph.ca ([131.104.96.176]) by server.ccl.net (8.11.6/8.11.0) with ESMTP id g6KFh3B07171 for ; Sat, 20 Jul 2002 11:43:03 -0400 Received: from smith ([131.104.32.146]) by buffy.cs.uoguelph.ca (8.11.6/8.11.6) with ESMTP id g6KFh3e05777 for ; Sat, 20 Jul 2002 11:43:03 -0400 (EDT) From: "Bill Smith" Organization: Math & Stats, University of Guelph To: chemistry ^%at%^ ccl.net Date: Sat, 20 Jul 2002 11:42:11 -0400 MIME-Version: 1.0 Content-type: text/enriched; charset=US-ASCII Content-transfer-encoding: 7BIT Subject: Re: CCL:Equilibrium constants Message-ID: <3D394C93.2969.35AB18B ":at:" localhost> Priority: normal In-reply-to: <3D38AB58.453C1A18- at -georgetown.edu> X-mailer: Pegasus Mail for Win32 (v3.12c) 0100,0100,0100ArialApart from standard tables like the JANAF Tables (CHASE, M., Jr., 1998, {\it NIST-JANAF Thermochemical Tables, 4th ed., J. Phys. and Chem. Reference Data Monograph No. 9,} (Am.Chem. Society, Am. Inst. PhysicsCourier New).ArialData , you can get a lot of this data from the free Lite version of the reaction equilibrium software package EQS4WIN, available at http://www.mathtrek.com Arial CEOn 19 Jul 2002, at 20:14, knauerc wrote: 7F00,0000,0000> Does anyone know where I can find good data for the equilibrium > constants, (as a function of temperature), for the reactions: > > H2 + Cl2 = 2HCL > > and > > H2 + Br2 = 2HBr > > Thank you. > > Connie Knauer > Georgetown University > knauerc:~at~:georgetown.edu > > > -= This is automatically added to each message by mailing script =- > CHEMISTRY -A_T- ccl.net -- To Everybody | CHEMISTRY-REQUEST -A_T- ccl.net -- To > Admins Ftp: ftp.ccl.net | WWW: http://www.ccl.net/chemistry/ | > Jan: jkl _-at-_)ccl.net > > > >