np.legdiv() method is used to divide one Legendre series to another.It returns the quotient-with-remainder of two Legendre series c1 / c2.
Syntax :
np.legdiv(c1, c2)
Parameters:
c1, c2 :[ array_like ] 1-D arrays of Legendre series coefficients ordered from low to high.Return : [ndarray] Legendre series coefficients representing the quotient and remainder.
Code #1 :
# Python program explaining # numpy.legdiv() method     # importing numpy as np  # and numpy.polynomial.legendre module as geek import numpy as np import numpy.polynomial.legendre as geek     # Legendre series coefficients   s1 = (2, 4, 8) s2 = (1, 3, 5)       # using np.legdiv() method res = geek.legdiv(s1, s2)   # Resulting legendre series print (res) |
Output:
(array([ 1.6]), array([ 0.4, -0.8]))
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Code #2 :
# Python program explaining # numpy.legdiv() method     # importing numpy as np  # and numpy.polynomial.legendre module as geek import numpy as np import numpy.polynomial.legendre as geek     # Legendre series coefficients s1 = (10, 20, 30, 40, 50) s2 = (2, 4, 6, 8, 10)        # using np.legdiv() method res = geek.legdiv(s1, s2)   # Resulting Legendre series print (res) |
Output:
(array([ 5.]), array([ 0.]))
