Convert a Hermite series to a polynomial in Python

• Last Updated : 22 Apr, 2022

In this article, we will be looking at the step-wise procedure to convert a Hermite series to a polynomial in Python.

NumPy.herm2poly method

To convert a Hermite series to a polynomial, use the np.herm2poly() function from the Numpy package of python. Convert the given array representing the coefficients of a Hermite series, ordered from lowest degree to highest, to an array of the coefficients of the equivalent polynomial (relative to the “standard” basis) ordered from lowest to the highest degree.

Syntax: np.herm2poly(hermite series)

Parameter:

• hermite series: 1-D array

Return: Return the coefficient of polynomial.

Stepwise Implementation:

Step 1: In this step, we are importing the required packages needed.

Python3

 `import` `numpy as np``from` `numpy.polynomial ``import` `hermite`

Step 2: In this step, we are creating an array containing 10 coefficients and displaying it.

Python3

 `gfg ``=` `np.array([``1``,``2``,``3``,``4``,``5``,``6``,``7``,``8``,``9``,``10``])`` ` `print``(gfg)`

Output:

[ 1  2  3  4  5  6  7  8  9 10]

Step 3: In this step we are checking the dimension and the datatype of the array created in step 2.

Python3

 `print``(``"Dimensions of our Array:-"``,gfg.ndim)`` ` `print``(``"\nDatatype of  Array:-"``,gfg.dtype)`

Output:

```Dimensions of our Array:- 1
Datatype of  Array:- int64```

Step 4: In this step, we are checking the shape of the array created in step 2.

Python3

 `print``(``"\nShape of  Array:-"``,gfg.shape)`

Output:

`Shape of  Array:- (10,)`

Step 5: This is the final step where we are using the np.herm2poly()  function to Hermite series to a polynomial:

Python3

 `print``(``"\n Converrting Hermite series to a polynomial"``, ``      ``hermite.herm2poly(gfg))`

Example:

This method returns a 1-D array containing the coefficients of the equivalent polynomial (relative to the “standard” basis) ordered from lowest order term to highest. The parameter passed is a 1-D array containing the Hermite series coefficients, ordered from the lowest order term to the highest.

Python3

 `import` `numpy as np``from` `numpy.polynomial ``import` `hermite`` ` `gfg ``=` `np.array([``1``,``2``,``3``,``4``,``5``,``6``,``7``,``8``,``9``,``10``])`` ` `print``(gfg)``print``(``"\nDimensions of our Array:-"``,gfg.ndim)``print``(``"\nDatatype of  Array:-"``,gfg.dtype)``print``(``"\nShape of  Array:-"``,gfg.shape)``print``(``"\n Converrting Hermite series to a polynomial"``,hermite.herm2poly(gfg))`

Output:

[ 1  2  3  4  5  6  7  8  9 10]

Dimensions of our Array:- 1

Datatype of  Array:- int64

Shape of  Array:- (10,)

Converrting Hermite series to a polynomial [  14335.  289636. -116148. -780448.  117680.  473280.  -31808.  -91136. 2304.    5120.]

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