Solving Infinite Series: Help Needed with Calculus Question

In summary, my calculus teacher posed this question to a recent class, and asked us (previous students) if we could figure it out(just for fun). I am stumped. The question is to find the general formula that represents the infinite series (1, -1, -1, 1,-1, -1, 1...) I am assuming it uses trig graphs, maybe something like sinx + cos2x... but even that doesn't really work. any ideas would be appreciated. thanks.
  • #1
beth192
4
0
My Calculus teacher posed this question to a recent class, and asked us (previous students) if we could figure it out(just for fun). I am stumped. The question is to find the general formula that represents the infinite series (1, -1, -1, 1,-1, -1, 1...) I am assuming it uses trig graphs, maybe something like sinx + cos2x... but even that doesn't really work. any ideas would be appreciated. thanks
 
Physics news on Phys.org
  • #2
You could draw it out on a graph for values of x=1, x=2, x=3 and so on. Then perhaps find the Fourier series for the square wave.
 
  • #3
one idea.

It's not fancy but this would work:

For [tex]n \in \mathbb{N}^{+}[/tex],

[tex]S_{n} = [/tex]
1 if n = 1
1 if [tex]3|(n-1)[/tex]
-1 otherwise.

Were there any other constraints on how you could set it up?
 
Last edited:
  • #4
Not really, but we never got to far into series in calc two, so i am guessing it had to be pretty simple, just no recursive series or anything like that. The teacher keeps saying its not very complicated... thanks for the help y'all
 
  • #5
I was having some issues with LaTeX. What's covered by "or anything like that" ?
 
  • #6
signum (sec(x))
 
  • #7
quadrant wise...
in first quadrant cos is positive so sec is positive too and signum will give 1.
in 2nd and 3rd quadrant cos is negative so sec is also negative and signum will give -1 in both second and third quadrants.
then in 4th quadrant, positive so +1.
 
  • #8
spideyunlimit said:
quadrant wise...
in first quadrant cos is positive so sec is positive too and signum will give 1.
in 2nd and 3rd quadrant cos is negative so sec is also negative and signum will give -1 in both second and third quadrants.
then in 4th quadrant, positive so +1.

Wait, but the pattern is (1, -1, -1, 1,-1, -1, 1...)

not

1, -1, -1, 1, 1, -1, -1, ...
 
  • #9
That doesn't work because it isn't tailored to discrete values of x=1,2,3,4. And if you're using sec x you might as well use cos x instead. The series must go 1,-1,-1,1,-1,-1,1..., not alternate between -1 and 1 or we could use (-1)^(2x-1) instead.
 
  • #10
i said sec x instead of cosx because else you get 0 too, but anyways, right! You won't get the afore said series :|
Hmmm, Let me think.
 
  • #11
Hey guys, the best I've come up with so far employees the use of sinx + cos2x... this gives you 1,1,-2,1,1,-2 at 4pie/6 intervals... then uses this (-1) ^ of sinx +cos2x ... i just have to shift the graph. My teacher said he did it two other ways though... any other ideas would be appreciated ( futurebird, I'm not really sure... those were his words : ( ) thanks everyone
 

1. What is an infinite series?

An infinite series is a mathematical expression consisting of an infinite number of terms, where each term is related to the previous one by a common rule or pattern.

2. How do you solve an infinite series?

To solve an infinite series, you can use various techniques such as the geometric series test, telescoping series, or the integral test. These techniques involve determining the convergence or divergence of the series based on certain conditions.

3. What is the difference between a convergent and a divergent series?

A convergent series is one that has a finite sum, meaning that as you add more terms, the sum approaches a specific value. A divergent series is one that does not have a finite sum, meaning that as you add more terms, the sum either approaches infinity or does not have a limit.

4. Can you provide an example of solving an infinite series?

One example of solving an infinite series is the geometric series: 1 + 1/2 + 1/4 + 1/8 + ... + 1/2^n. This series has a common ratio of 1/2 and can be solved using the formula S = a / (1 - r), where S is the sum, a is the first term, and r is the common ratio. In this case, the sum is equal to 2, meaning that the series converges to 2.

5. What are some real-world applications of infinite series?

Infinite series have various applications in physics, engineering, and finance. For example, they can be used to model the growth of populations, the trajectory of a falling object, or the value of an investment over time. They are also used in the development of computer algorithms and in the study of chaos and fractals.

Similar threads

How to show that these sequences are summable?
    • Calculus and Beyond Homework Help
Replies
1
Views
225
A few questions to make sure I understand Fourier series
    • Calculus and Beyond Homework Help
Replies
3
Views
259
How to 'shift' Fourier series to match the initial condition of this PDE?
    • Calculus and Beyond Homework Help
Replies
4
Views
1K
Proving the convergence of series
    • Calculus and Beyond Homework Help
Replies
14
Views
1K
Finding sum of infinite series
    • Calculus and Beyond Homework Help
Replies
9
Views
2K
What is the Derivative of the Infinite Series of Tangent Powers?
    • Calculus and Beyond Homework Help
Replies
4
Views
3K
Determine the convergence or divergence of the infinite series
    • Calculus and Beyond Homework Help
Replies
13
Views
2K
Finding order of an infinite series
    • Calculus and Beyond Homework Help
Replies
1
Views
1K
Infinite series of sin + cos both to the 2n power
    • Calculus and Beyond Homework Help
Replies
6
Views
1K
Evaluate Integral: Calculus AP Help Needed
    • Calculus and Beyond Homework Help
Replies
4
Views
956

Hot Threads

Recent Insights

Back
Top