Evaluate a Hermite series at list of points x using NumPy in Python

In this article, we will be looking toward the approach to evaluating a Hermite series at a list of points x in Python and NumPy.

Example:

List: [6,7,8,9,10]
Result: [102175. 191631. 329175. 529399. 808815.]
Explanation: Hermite series at points x.

NumPy.polynomial.hermite.hermval() method

To evaluate a Hermite series of a list of points at x, the user needs to call the hermite.hermval() method of the Numpy library in Python. Further, the user needs to pass the first parameter to the function which is the x, where x is a list or tuple, and the 2nd parameter is C,  which is an array of coefficients.

Syntax : np.polynomial.hermite.hermval(x, c)

Parameter:

• x: list or tuple
• c: array of coefficient

Return : Return the coefficient of series after multiplication.

Example 1:

In this example, we created an array of 5 data points of one dimension and further created a list named x, after that we used the hermite.hermval() method and pass the required parameters to evaluate the Hermite series at a list of points [6,7,8,9,10].

Output:

Dimensions of Array:  1

Shape of Array:  (5,)

Hermite series at point [102175. 191631. 329175. 529399. 808815.]

Example 2:

In this example, we created a 2-D array of 10 data points and further created a list name x, after we used the hermite.hermval() method and pass the required parameters to evaluate the Hermite series at a list at points [11,12,13,14,15].

Output:

Dimensions of Array:  2

Shape of Array:  (2, 5)

Hermite series at point [[133. 145. 157. 169. 181.]

 [156. 170. 184. 198. 212.]

 [179. 195. 211. 227. 243.]

 [202. 220. 238. 256. 274.]

 [225. 245. 265. 285. 305.]]