Quick question antiderivative of e^x^2

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The antiderivative of e^{x^2} cannot be expressed using elementary functions, but can be approximated using power series. The general form of the antiderivative is given by the series sum involving x^{2n+1} and factorials. The discussion highlights the importance of proper exponential notation, as e^{x^2} and (e^x)^2 represent different expressions. It clarifies that questions about limits, derivatives, and antiderivatives fall under calculus. The conversation also emphasizes the need for clear communication in mathematical notation to avoid confusion.
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my retarded textbook has this question i need the antiderivate of e^xsquared

and i hav no idea. thanks

ps. should this be in the calculus forum?

i don't really know what calc is?
 
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The antiderivative of e^{x^2} cannot be expressed using a finite number of elementary functions, however one may use power series to arrive some sort of an answer, as in:

\int e^{x^2}dx = \int \sum_{n=0}^{\infty}\frac{x^{2n}}{n!} dx = \sum_{n=0}^{\infty}\frac{x^{2n+1}}{(2n+1)n!}+C​

hence \sum_{n=0}^{\infty}\frac{x^{2n+1}}{(2n+1)n!}+C is the most general antiderivative of e^{x^2}.

Re: P.S.: If you are asking about anything involving limiting processes such as limits, derivatives, antiderivatives (a.k.a. integrals), etc., that would be calculus (excepting perhaps so-called "end-behavior" of functions which arise in some precalc courses). Hence your question about an antiderivative should indeed be posted in the calculus forum.
 
ok geeez thanks! i didnt think it would be that.. complex , hehe thanks! and now i know what calculus is
 
Also, be careful with exponential notation. e^x^2 is ambiguous because exponentiation is not associative. It could mean

e^{x^2}

OR

(e^x)^2,

which are completely different.
 
Data said:
Also, be careful with exponential notation. e^x^2 is ambiguous because exponentiation is not associative. It could mean

e^{x^2}

OR

(e^x)^2,

which are completely different.
Unlike other operations, exponents are evaluated from Right to Left. i.e, if one writes a ^ {b ^ c}, it can be taken for granted that it's the same as writing: a ^ {\left( b ^ c \right)}
Other wise, it should be written:
{\left( a ^ b \right)} ^ c
See Special Cases in Order of Operations. :)
 
yet the terminology e^xsquared was clear, no?
 
benorin said:
yet the terminology e^xsquared was clear, no?
No. Considering how you asked the question, I would have assumed you meant:

\int{(e^x)^2}dx

which can be solved by u-substitution.
 
BobG said:
No. Considering how you asked the question, I would have assumed you meant:

\int{(e^x)^2}dx

which can be solved by u-substitution.

if you are referring to this question, think really hard back to indices laws x^2*x^3=x^5 ( when you multiply you add ) (e^x)^2 =(e^x)(e^x)=(e^2x)

Anti D = (1/k)*(e^2x)+c ( note 2 is K )
(1/2)*(e^2x)+c
 
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