When does a function NOT have an antiderivative? I know this question may sound naïve but why can't

boloman0z

boloman0z

Answered question

2022-06-15

When does a function NOT have an antiderivative?
I know this question may sound naïve but why can't we write e x 2 d x as e 2 x d x? The former does not have an antiderivative, while the latter has.
In light of this question, what are sufficient conditions for a function NOT to have an antiderivative. That is, do we need careful examination of a function to say it does not have an antiderivative or is there any way that once you see the function, you can right away say it does not have an antiderivative?

Answer & Explanation

kejohananws

kejohananws

Beginner2022-06-16Added 19 answers

Step 1
As you might have realised, exponentiation is not associative:
( a b ) c a ( b c )
So what should a b c mean? The convention is that exponentiation is right associative:
a b c = a ( b c )
Step 2
Because the otherwise left-associative exponentiation is just less useful and redundant, as it can be represented by multiplication inside the power (again as you might have realised):
a b c = ( a b ) c
Finley Mckinney

Finley Mckinney

Beginner2022-06-17Added 11 answers

Explanation:
The exponential expression a b c is equal to a ( b c ) . It is not equal to ( a b ) c = a b c as you seem to think it is. In general an exponential is evaluated from right to left with the highest term evaluated first. That is to say
x 0 x 1 x 2 x n = x 0 ( x 1 ( x 2 ( ( x n ) ) ) )

Do you have a similar question?

Recalculate according to your conditions!

Ask your question.
Get an expert answer.

Let our experts help you. Answer in as fast as 15 minutes.

Didn't find what you were looking for?