What is the Taylor polynomial for x^x around the point a=1?

In summary, the conversation discusses finding the Taylor polynomial for the function f(x)=x^x-1 around the point a=1. One suggestion is to write the function as g(x)=x^x and then find the polynomial for g(x) using the logarithmic function. Another suggestion is to use the chain rule and directly calculate the Taylor polynomial for the function f(x)=e^(xlnx). The conversation ends with the statement that the Taylor polynomial was successfully calculated.
  • #1
danik_ejik
18
0
hello,
please help to calculate the taylor polynomial for
[URL]http://latex.codecogs.com/gif.latex?f(x)=x^{x}-1[/URL] around the point a=1

i thought to write it as g(x)=x^x
and then f(x)=g(x)-1
and then find the polynomial for g(x) as lng(x)=xln(x)
but it seems incorrect.
 
Last edited by a moderator:
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  • #2
In order to do this you have to calculate the derivative if [tex]y=x^{x}$[/tex], take logs of this equation and differentiate that using implicit differentiation and that will help you, or you could write:
[tex]
x^{x}=e^{x\log x}
[/tex]
And use the chain rule
 
  • #3
thanks,
successfully managed by directly calculating the taylor polynomial when
[URL]http://latex.codecogs.com/gif.latex?f(x)=e^{xlnx}[/URL]
 
Last edited by a moderator:

What is the Taylor expansion of x^x?

The Taylor expansion of x^x is a mathematical series that represents the function x^x as an infinite sum of polynomial terms. It is a way of approximating the value of the function at any given point by using the values of the function and its derivatives at a single point.

Why is the Taylor expansion of x^x important?

The Taylor expansion of x^x is important because it allows us to approximate the value of the function at any point without having to evaluate the function itself. This is especially useful when dealing with complex functions that cannot be easily evaluated.

What is the formula for the Taylor expansion of x^x?

The formula for the Taylor expansion of x^x is:
x^x = 1 + xln(x) + (xln(x))^2/2! + (xln(x))^3/3! + ... + (xln(x))^n/n! + ...

What is the convergence of the Taylor expansion of x^x?

The Taylor expansion of x^x converges for all real values of x, meaning that it will give an accurate approximation of the function at any point. However, the convergence may be slow for certain values of x, such as negative or complex numbers.

How is the Taylor expansion of x^x used in real-world applications?

The Taylor expansion of x^x is used in various fields of science and engineering, such as physics, chemistry, and economics. It is used to approximate complex functions and solve differential equations, as well as in optimization and numerical analysis. It is also used in the development of algorithms for computer programs and in financial modeling.

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