Programmer Guide/Command Reference/EVAL/yint: Difference between revisions

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::<code>''r''[i]=''r''[i-1]+''y''[i-1]*(''x''[i]-''x''[i-1]); with: i=1..nrow(''y'')</code>
::<code>''r''[i]=''r''[i-1]+''y''[i-1]*(''x''[i]-''x''[i-1]); with: i=1..nrow(''y'')</code>
----
----
;See also: [[Programmer_Guide/Command_Reference/EVAL/ydiff|ydiff]]
;See also: [[../ydiff|ydiff]]


[[Programmer_Guide/Command_Reference/EVAL#Functions|<function list>]]
[[../#Functions|<function list>]]

Latest revision as of 12:23, 21 April 2011

Calculates the integration of the vector y = f(x).


Usage 1
yint(yvector {, dxscalar=1})
Result 1
The result is the vector r with nrow(y) elements.
r[0]=y[0]*dx
r[i]=r[i-1]+y[i]*dx; with: i=1..nrow(y)-1

Usage 2
yint(yvector , dxscalar, cscalar)
Result 2
The result is the vector r with nrow(y)+1 elements.
r[0]=c
r[i]=r[i-1]+y[i-1]*dx; with: i=1..nrow(y)

Usage 3
yint(yvector, dxvector)
Result 3
The result is the vector r with nrow(y) elements. The argument dx contains the differences of the x values and is a vector with nrow(y) elements.
r[0]=y[0]*dx[0]
r[i]=r[i-1]+y[i]*dx[i]; with: i=1..nrow(y)-1

Usage 4
yint(yvector, dxvector, cscalar)
Result 4
The result is the vector r with nrow(y)+1 elements. The argument dx contains the differences of the x values and is a vector with nrow(y) elements.
r[0]=c
r[i]=r[i-1]+y[i-1]*dx[i-1]; with: i=1..nrow(y)

Usage 5
yint(yvector, xvector)
Result 5
The result is the vector r with nrow(y) elements. The argument x contains the x values and is a vector with nrow(y)+1 elements.
r[0]=y[0]*(x[1]-x[0])
r[i]=r[i-1]+y[i]*(x[i+1]-x[i]); with: i=1..nrow(y)-1

Usage 6
yint(yvector, xvector, cscalar)
Result 6
The result is the vector r with nrow(y)+1 elements. The argument x contains the x values and is a vector with nrow(y)+1 elements.
r[0]=c
r[i]=r[i-1]+y[i-1]*(x[i]-x[i-1]); with: i=1..nrow(y)

See also
ydiff

<function list>

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