Programmer Guide/Command Reference/EVAL/yint: Difference between revisions
From STX Wiki
< Programmer Guide | Command Reference | EVAL
Jump to navigationJump to search
No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
{{DISPLAYTITLE:{{SUBPAGENAME}}}} | {{DISPLAYTITLE:{{SUBPAGENAME}}}} | ||
Calculates the integration | Calculates the integration of the vector ''y'' = f(''x''). | ||
---- | ---- | ||
;Usage 1: <code>yint(<var>y<sub>vector</sub></var> {, <var>dx<sub>scalar</sub></var>=1})</code> | ;Usage 1: <code>yint(<var>y<sub>vector</sub></var> {, <var>dx<sub>scalar</sub></var>=1})</code> | ||
Revision as of 08:34, 13 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]*dxr[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)+1elements.r[0]=cr[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 withnrow(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)+1elements. The argument dx contains the differences of the x values and is a vector withnrow(y)elements.r[0]=cr[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 withnrow(y)+1elements.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)+1elements. The argument x contains the x values and is a vector withnrow(y)+1elements.r[0]=cr[i]=r[i-1]+y[i-1]*(x[i]-x[i-1]); with: i=1..nrow(y)
- See also
- ydiff
