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<br>
<code>vint(<i>psexpr,expr,top</i>)</code><BR>
This function performs a mass-weighted vertical integral in mb pressure coordinates. The three arguments to <code>vint</code> are:
<BR>
<code><i>psexpr</i> </code>a GrADS expression for the
surface pressure, in mb, which bounds the integral on
the bottom. <br>
<code><i>expr</i> </code>a GrADS expression
representing the quantity to be integrated.<br>
<code><i>top</i> </code>
the bounding top pressure, in mb. This value must be a constant and cannot be
provided as an expression. <BR>
The calculation is a sum of the mass-weighted layers:
<BR>
<BR><ul><code>f/g * sum(expr * Delta(level))<br><br>please see <br></code></ul><br>http://www.iges.org/grads/gadoc/gradfuncvint.html<br><br><div> </div>
<div><font style="font-size:10pt" face="Times New Roman" size="2">Sincerely</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">Dimri</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">______________________________</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">Dimri, A. P.</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">School of Environmental Sciences</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">Jawaharlal Nehru University</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">New Delhi, India</font><font style="font-size:10pt" face="Times New Roman" size="2"><br></font><font style="font-size:10pt" face="Times New Roman" size="2">______________________________</font><br></div><font style="font-size:8pt" size="1"></font><br><br><div><div id="SkyDrivePlaceholder"></div>> Date: Mon, 16 Jan 2012 15:41:07 -0800<br>> From: rmcaffera@yahoo.com<br>> To: gradsusr@gradsusr.org<br>> Subject: Re: [gradsusr] Integrated vertical moisture flux convergence<br>> <br>> me too<br>> <br>> mario<br>> <br>> --- On Mon, 1/16/12, Tereza Cavazos <tcavazos@cicese.mx> wrote:<br>> <br>> > From: Tereza Cavazos <tcavazos@cicese.mx><br>> > Subject: [gradsusr] Integrated vertical moisture flux convergence<br>> > To: gradsusr@gradsusr.org, "Abraham" <talavez@cicese.mx><br>> > Date: Monday, January 16, 2012, 7:29 PM<br>> > Hi,<br>> > <br>> > Does anyone has a script to calculate the integrated<br>> > vertical moisture <br>> > flux convergence?<br>> > I will appreciate any help.<br>> > <br>> > Thanks !<br>> > Tereza Cavazos<br>> > <br>> > _______________________________________________<br>> > gradsusr mailing list<br>> > gradsusr@gradsusr.org<br>> > http://gradsusr.org/mailman/listinfo/gradsusr<br>> > <br>> _______________________________________________<br>> gradsusr mailing list<br>> gradsusr@gradsusr.org<br>> http://gradsusr.org/mailman/listinfo/gradsusr<br></div> </div></body>
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