Questions about the properties of functions of the form $\sum_{n=0}^{\infty}a_n x^n$, where the $a_n$ are real or complex numbers, and $x$ is real or complex (or more generally an element of a Banach algebra).

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0
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2answers
68 views

How to find a Taylor series for $e^{x^2-1}$? [on hold]

How do I proceed to write a taylor series expansion for $e^{x^2-1}$? I know the series for $e^x$: it is $1+(x)+(x^2/2!)+\dots$ Edit: Would a Maclaurin series expansion be different?
0
votes
0answers
13 views

Series representation of simple function - a general form for the coefficients?

I'm looking for a series representation for $$ f\left(r_j\right)=\frac{ \left( m - r_j \right)^{\frac{3}{2}\left(m-1\right)}}{\left(j + m - r_i - r_j \right)^{\frac{3}{2} \left( m + j - 1 \right)} } ...
-1
votes
3answers
35 views

Function represented by power series

To what function does the function with power series , $ |x|<1$ $$F(x)=\frac{x^2}{2}-\frac{x^4}{4}+\frac{x^6}{6}-\frac{x^8}{8}+\cdots$$ converge?
1
vote
5answers
28 views

Infinite sequence and power series

infinite sequence $a_{n}$ where $$\lim_{n\to \infty} |na_{n}|=1101 $$ Find R of convergence of the power series $$\sum_{n=1}^\infty a_{n}x^n$$ Anyone can guide me for this question? Thank you so ...
0
votes
0answers
25 views

Compute radius of convergence and the first three coefficients of a function

Let $\displaystyle f(z) = \frac{z+1}{(2z+1)(1+ \sin z)}$, with serie expansion $\sum_{n=0} ^\infty a_n z^n$ around zero. Now I want to compute the radius of convergence and the first three ...
1
vote
2answers
86 views

Representation of power series of product of sine and cosine

Given $$ f(x)= \int \limits_0^x \sin(y^2) \cos(y^2) \mathrm{d}y $$ Anyone can help and guide me for this?I don't really have an idea of how to represent it as power series Thank you! My attempt: $$ ...
0
votes
0answers
33 views

Radius of convergence of the series-power series

Can anyone help me to check whether my solution is correct because we are not provided with the solutions,but I want to ensure what I did is correct. Thanks for your help! (a)$\sum_{n=1}^\infty 5^n ...
3
votes
4answers
168 views

The even-numbered coefficients of the Maclaurin series of $ \frac{1}{\cos(x)} $ are odd integers.

Let’s consider $ G(z) \stackrel{\text{df}}{=} \dfrac{1}{\cos(z)} $ as the exponential generating function of the sequence of Euler numbers. How can one prove that in the Maclaurin series of $ G $, $$ ...
1
vote
1answer
27 views

Determine the radius of convergence of $\sum_{n=1}^\infty n^{n^{1/3}}z^n$ (by the ratio test if possible)

Determine the radius of convergence of the following power series: $\sum_{n=1}^\infty n^{n^{1/3}}z^n$ Applying the ratio test gives $\frac{({n+1})^{({n+1})^{1/3}}}{n^{n^{1/3}}}z<1$. So ...
1
vote
1answer
18 views

Complex power series which converges absolutely on the boundary converges absolutely on a neighborhood of the boundary

If a complex power series $\sum_{n = 0}^{\infty} a_n z^n$ converges absolutely for $|z| \leq 1$, does it necessarily converge absolutely for $|z| < 1 + \epsilon$, for some $\epsilon > 0$?
7
votes
5answers
466 views

Why the radius of convergence and not “areas of convergence” for power series?

My calculus is quite rusty and I'm trying to rebuild it on an intuitive basis. Currently, I am looking at power series and have trouble understanding the radius of convergence. I am comfortable with ...
1
vote
2answers
42 views

approximate $\int_{0}^{0.5}{\frac{\sin(x)}{x}}dx$

By using Maclaurin series, approximate the value of $$\int_{0}^{0.5}{\frac{\sin(x)}{x}}dx$$ to within an error $0.0001$, where $x$ is in radians. My attempt: Since we know the Maclaurin series of ...
0
votes
1answer
38 views

Radius of convergence and sum of alternating series $1 - z + z^2 - z^3 + \ldots $

I have a (complex) function represented by the power series \begin{equation*} L(z) = z -\frac{z^2}{2} + \frac{z^3}{3} - \frac{z^4}{4} \ldots \end{equation*} which I have tried to represent (perhaps ...
-1
votes
1answer
50 views

How can I solve the following differential equation [on hold]

How can I solve the following differential equation : $$w''+(\sin z)w'+(1+z^2)w=0$$ In two case : without use power series use power series near the point $z=0$
1
vote
3answers
58 views

Working out $\tan x$ using sin and cos expansion

Using only the series expansions $\sin x = x- \dfrac{x^3} {3!} + \dfrac{x^5} {5!} + ...$ and $\cos x = 1 - \dfrac{x^2} {2!} + \dfrac{x^4}{4!} + ...$ Find the series expansions of the $\tan x$ ...
0
votes
0answers
23 views

power series steps help

Can someone show me how to do this problem? I really need a walk through of the steps if possible. Find a power series representation for the function and determine its radius of convergence. $$ ...
3
votes
1answer
56 views

Is my proof that $\frac{\pi}{4}=\sum\limits_{n\geq 0}(-1)^n \frac{1}{2n+1}$ correct?

Respected All I was trying to prove that $$\sum_{n\geq 0}(-1)^{n} \frac{1}{2n+1}=\frac{\pi}{4}$$ What I tried to show like this. We know $$\frac{1}{1+x^2}=(1+x^2)^{-1}=\sum_{n\geq 0}(-1)^nx^{2n}, ...
1
vote
1answer
21 views

Power series confusion

I'm having trouble with power series. Can someone walk me through this? My biggest problem is always figuring out what I need to break apart. Find a power series representation for each function ...
0
votes
1answer
17 views

Difference between a convergent series and an asymptotic series?

Can someone let me know the difference between a convergent series and an asymptotic series with an example? Can both the series be the same at some situations? In what situations an asymptotic series ...
5
votes
1answer
37 views

Debye Function Integral (BlackBody)

Show that $$ \int^{\infty}_{0} \frac{x^{3} \, dx}{e^{x}-1} = \frac{\pi^{4}}{15} $$ by expanding the integrand in powers of $e^{-x} $ and integrating term by term. Could anyone help with this one?
1
vote
1answer
54 views

Infinite series $\sum_{n=1}^{\infty}nx^{n+1}$ does not comply to any of my (known) tests

I am attempting to find the interval of convergence for $$\sum_{n=1}^{\infty}nx^{n+1}$$ The lower bound, x = -1, would be tested by determining if $$\sum_{n=1}^{\infty}n(-1)^{n+1}$$ diverges. ...
1
vote
2answers
53 views

radius of convergence of $\sum_{n=1}^\infty n!^2x^{n^2}$ [on hold]

Determine the radius of convergence of the following power series: $\sum_{n=1}^\infty n!^2x^{n^2}$
1
vote
0answers
23 views

Radius of convergence of $x/sinh(x)$

the function $\mathbb{R}\ni x\mapsto \frac{x}{\sinh(x)}\in\mathbb{R}$ can be written in a neighborhood of $0\in\mathbb{R}$ as a Taylor series, i.e. $\frac{x}{\sinh(x)}=\sum\limits_{k=0}^{\infty} a_k ...
1
vote
1answer
31 views

how to understand Taylor's inequality intuitively?

I am learning the Taylor Series at the moment and I am trying to figure out how to understand Taylor's inequality intuitively. I know you can integrate repeatedly and prove the inequality is ...
1
vote
2answers
45 views

Find the function that equals to $1-x^3+x^6-x^9+ \cdots$

Find the function that equals to $1-x^3+x^6-x^9+ \cdots$ for all $|x| < 1$ I know that $\frac{1}{1+x} = 1-x+x^2-x^3+...$ But I couldn't find the pattern here
0
votes
1answer
22 views

Power series expansion of f(x)=1/(1-x) around x=0 and x=-1

For the power series expansion of the function $f(x)$ I worked out the at $x=0$ the power series expansion is $$1(x-0)^n$$ and at $x=-1$ the power series expansion is ...
0
votes
3answers
23 views

Power series expansion using Taylors Theorem.

So the function $f(x)=3x^2-6x+5$ needs to be written as a power series expansion around $x=a$ and the goal is to show $x=a$ is $f(x)$ for every $a$. So I started off by finding up to the third ...
0
votes
0answers
19 views

Help with simplification rules form sums and integrals.

IF you had a power series with summation notation and an integral what expressions would you be able to pull outside the integral and which would you be able to pull outside the sum.
0
votes
1answer
20 views

Help with general power series concept

If f(x) is some general polynomial, what will the power series expansion of f(x) be. Is there a set rule for finding the power series of polynomials.
-1
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2answers
59 views

How can I solve the following differential equation without use power series [on hold]

Let we have the following differential equation $$y''-xy'=e^{-x}$$ how can I solve this differential equation without use power series
0
votes
0answers
11 views

Recursive relationship for Peano Baker Series

The Peano Baker Series is a integral has the following form $$\varPhi(h,0)=I+\intop_0^h G(t_{1}) \, dt_1 + \intop_0^h G(t_1) \intop_0^{t_{1}} G(t_2) \, dt_2 \, dt_1 + \intop_0^h G(t_1) ...
0
votes
0answers
64 views

How to solve $1 = \sum_{p \text{ prime}} x^{-p-1}$?

As the title says, I am trying to solve the equation $$1 = \sum_{p \text{ prime}} x^{-p-1}$$ and I'm not really sure where to begin. I got this from an exercise in a book and apparently there is a ...
-1
votes
2answers
32 views

How can I solve the following differential equation [on hold]

How can I solve the following differential equation by power series near the point $z=1$ $$(z^2-2z+2)w''+2(z-1)w'=0$$ Then I have to find the radius of convergence of the solution
1
vote
3answers
36 views

How to solve power series expansions.

The function is $f(x)=1/(1-x)$ and it asks to find a power series expansion expanded around $x=a$, which would be the general expansion as well as around $x=0$ and $x=2$.
0
votes
4answers
28 views

Power Series representation of $\frac{x^3}{(3x+4)^2}$

How do you do this? I have an exam in 2 hours and I know this type will be on it and I have no clue. We were taught to base it off the power series of $x^n$
0
votes
2answers
19 views

Estimate on rate of growth of a power series

Given two sequences $(a_k),(b_k)$ with $a_k\geq0,b_k>0$ such that the power series $\sum_{k=0}^\infty a_k b_kr^{k}$ and $\sum_{k=0}^\infty a_kr^k$ converge for each $r>0$. My question now is: ...
0
votes
1answer
32 views

An entire function is a polynomial iff the Taylor expansion around $0$ converges uniformly

Let $g:\mathbb{C} \to \mathbb{C}$ an entire function. Prove that the Taylor expansion around $0$ converges uniformly in all $\mathbb{C}$ if and only if $g$ is a polynomial. 1/2 PROOF I think I ...
-2
votes
0answers
16 views

How to solve power series for terms and convergence?

Find the first five non-zero terms of power series representation centered at x=0 for the function. What is the interval of convergence? f(x) = \frac{x}{1+3 x}
1
vote
1answer
15 views

Multiplying and factoring in Formal Power Series

I'm working with some formal power series in my homework. Somewhere in the middle of my hw problem I reach a point where I would really like to factor, but I'm not sure if I can. Suppose $F_k$ ...
2
votes
2answers
72 views

Prove $f(x)=g(x)$ for all $x \in\mathbb{R}$

If $$f(x)=\sum_{n=0}^\infty\frac{x^n}{n!}, x\in\mathbb{R}$$ and $$ g(x) = 1 + \int_0^x f(t) \,dt $$ prove that $g(x)=f(x)$ for all $x\in\mathbb{R}$ and prove that $f$ is differentiable on ...
0
votes
0answers
44 views

how would i simplify this into an identity?

$$ B_{n,k}^{f\ln(g)} = B_{n,k}\left(\frac{d}{dx}[f(x)\ln(g(x))], \frac{d^2}{dx^2}[f(x) \ln(g(x)), \cdots, \frac{d^{n-k+1}}{dx^{n-k+1}}[f(x) \ln(g(x))]\right) $$ We know that: $$ B_{n,k}^{f\ln(g)} = ...
0
votes
1answer
13 views

Verifying whether an expression equals $\frac{1}{x}$

The derivative of some expression turned out to be: $$\frac{e^x}{x}(1 -\frac{1}{2x}) + e^x\sum_{n=2}^{\infty}\frac{x^{n -1}}{n!} + \frac12 \sum_{n =3}^{\infty}\frac{x^{n -2}}{n(n-2)!} + ...
1
vote
2answers
42 views

Solving $y'(x)-2xy(x)=2x$ by using power series

I have a first order differential equation: $y'(x)-2xy(x)=2x$ I want to construct a function that satisfies this equation by using power series. General approach: $y(x)=\sum_0^\infty a_nx^n$ ...
1
vote
1answer
42 views

How do I extrapolate summation notation from a given series?

I am currently working on the power series for a homework assignment. I have to find the radius of convergence for the function $$\frac{10}{1+64x^2}$$ By setting up the $$\frac{1}{1+64x^2}$$ part ...
1
vote
2answers
38 views

Finding the co-efficients of this power series

I am required to find the co-efficients of this power series: $2x\ln(1+2x)$ I approached the problem by considering the $\ln(1+2x)$ part as the integral of $2/(1+2x)$ and applied the geometric series ...
0
votes
2answers
61 views

Determine the radius of convergence of power series [on hold]

If I have the following functions : $$F(x)=\frac{2x}{1+x^2}$$ and $$G(x)=\frac{4x^2}{1+x^2}$$ and I want to determine the radius of convergence of power series , when I write each one of them as ...
3
votes
1answer
44 views

Bounds on Maclaurin series of $e^{-x^2}$

This is a problem from a textbook: By taking the 4th degree Maclaurin polynomial for $e^{-x^2}$ find an approximation to $\int^1_0 e^{-x^2} \text{dx}$. Place bounds on the error in this ...
0
votes
0answers
16 views

Maclaurin polynomial error term

this is a problem from a textbook, What degree Maclaurin polynomial of $e^x$ must be taken to guarantee an estimate of $e$ to within $1 \times 10^{-6}$ The answer from textbook is $n=17$, but I ...
1
vote
3answers
46 views

Has this infinite sum $\sum _{i=1}^{\infty } p^i \log (b i+a)$ any known solution?

I am wondering if exist a known solution for this kind of infinite sum $$ \sum _{i=1}^{\infty } p^i \log (a i + b) $$ where $p,a,b$ are real and $p\leq 1$. ...or even an approximation of the exact ...
0
votes
1answer
10 views

Derivative of Bessel J series… Do I reindex my summation?

Okay, short question: what happens to my index upon differentiation and why? This is a small step in a larger proof I'm working on... Given the series representation of Bessel J $$J_n = ...