Problem: for all x-vals for which it converges, the fn f is defined by the series
∞
f(x)= ∑ (x^n) / (n!)
n=0
a. what is f (0)...i know that anything to the power of 0 is 1, but how do u deal with n! .... since it is the product of integers from 1 to n... is the solution 1 because we have x^0 = 1 and then how does n! =1 (it does right?)
b. what is the domain of f? ...this i get lim as n --> infinity is the abolute value of X divided by (n+1) ...the limit is 0 so all reals
but again here i don't really understand the operation with n!
x^(n+1) times n!
________ ___
(n+1) ! x^n is (x) / (n+1)
how do u deal with n! what does it mean in relation to its disapearance?
c. Assuming that f ' can be calculated by diffetiating the series term-by-ter, find the series for f ' (x) ....how do u differentiate this, particularly with the n!
I know that it should be the same series, but I don't really get why... is it because the fn is e^x, probably, but I don't know how to show the work for this question
THANK U ALL
∞
f(x)= ∑ (x^n) / (n!)
n=0
a. what is f (0)...i know that anything to the power of 0 is 1, but how do u deal with n! .... since it is the product of integers from 1 to n... is the solution 1 because we have x^0 = 1 and then how does n! =1 (it does right?)
b. what is the domain of f? ...this i get lim as n --> infinity is the abolute value of X divided by (n+1) ...the limit is 0 so all reals
but again here i don't really understand the operation with n!
x^(n+1) times n!
________ ___
(n+1) ! x^n is (x) / (n+1)
how do u deal with n! what does it mean in relation to its disapearance?
c. Assuming that f ' can be calculated by diffetiating the series term-by-ter, find the series for f ' (x) ....how do u differentiate this, particularly with the n!
I know that it should be the same series, but I don't really get why... is it because the fn is e^x, probably, but I don't know how to show the work for this question
THANK U ALL
