jacobiNS
Jacobi NS elliptic function
Syntax
Description
jacobiNS(
returns the Jacobi NS Elliptic Function of
u,m)u and m. If u or
m is an array, then jacobiNS acts
element-wise.
Examples
Calculate Jacobi NS Elliptic Function for Numeric Inputs
jacobiNS(2,1)
ans =
1.0373Call jacobiNS on array inputs.
jacobiNS acts element-wise when
u or m is an array.
jacobiNS([2 1 -3],[1 2 3])
ans =
1.0373 1.4879 1.7321Calculate Jacobi NS Elliptic Function for Symbolic Numbers
Convert numeric input to symbolic form using
sym, and find the Jacobi NS elliptic function. For
symbolic input where u = 0 or m = 0 or
1, jacobiNS returns exact symbolic
output.
jacobiNS(sym(2),sym(1))
ans = coth(2)
Show that for other values of u or
m, jacobiNS returns an
unevaluated function call.
jacobiNS(sym(2),sym(3))
ans = jacobiNS(2, 3)
Find Jacobi NS Elliptic Function for Symbolic Variables or Expressions
For symbolic variables or expressions,
jacobiNS returns the unevaluated function call.
syms x y f = jacobiNS(x,y)
f = jacobiNS(x, y)
Substitute values for the variables by using subs, and
convert values to double by using double.
f = subs(f, [x y], [3 5])
f = jacobiNS(3, 5)
fVal = double(f)
fVal = 32.1081
Calculate f to higher precision using
vpa.
fVal = vpa(f)
fVal = 32.108111189955611054545195854805
Plot Jacobi NS Elliptic Function
Plot the Jacobi NS elliptic
function using fcontour. Set u on the
x-axis and m on the y-axis by using the symbolic function
f with the variable order (u,m). Fill
plot contours by setting Fill to
on.
syms f(u,m) f(u,m) = jacobiNS(u,m); fcontour(f,'Fill','on') title('Jacobi NS Elliptic Function') xlabel('u') ylabel('m')
Input Arguments
More About
See Also
ellipticK | jacobiAM | jacobiCD | jacobiCN | jacobiCS | jacobiDC | jacobiDN | jacobiDS | jacobiNC | jacobiND | jacobiSC | jacobiSD | jacobiSN | jacobiZeta