Infinite Series

Key Questions

• How do you evaluate an infinite series?

  Answer:

  See below

  Explanation:

  There are different types of series, to what use different methods of evaluating

  For example a converging geometric series:

  #a+ ar + ar^2 + ar^3 + ... + ar^k = sum_(n=1) ^(k) ar^(n-1) #

  where #sum_(n=1) ^(k) ar^(n-1) = (a(1-r^k)) / (1-r) #

  Assuming #|r| < 1 # we can let #k to oo # for infinite series to be evaluated ...

  #lim_(k to oo ) sum_(n=1) ^(k) ar^(n-1) = lim_(k to oo ) ( a(1-r^k) )/(1-k) #

  as #k to oo # , #r^k to 0 # as #|r|< 1 #

  #=> sum_(n=1) ^(oo) ar^(n-1) = a/(1-r) #

  but there are other series what can be approached with tricks!

  Take # 1/6 + 1/12 + 1/20 + 1/30 + ... #

  After consideration we can recognise this is the same as...

  # (1/2 - 1/3 ) + ( 1/3 - 1/4) + (1/4 - 1/5 ) + ... #

  # (1/2 cancel(- 1/3) ) + (cancel( 1/3) cancel(- 1/4)) + (cancel(1/4) cancel(- 1/5) ) + ... #

  #=1/2 #

  There are also other infinite series that you can remember, and may be able to prove, a like:

  #e^x = 1 + x + x^2 /(2!) + x^3 / (3!) + ... = sum_(n=0) ^oo x^n / (n!) #

  There are many others, where there insist one set way of computing infinite series, there are many!

  Rhys · 1 · Apr 8 2018
• What is an oscillating infinite series?

  I believe that it is the same as an alternating series. If that is the case, then an oscillating series is a series of the form:

  #sum_{n=0}^infty (-1)^n b_n#, where #b_n ge 0#.

  For example, the alternating harmonic series

  #sum_{n=1}^infty{(-1)^n}/n#

  is a convergent alternating series.

  Wataru · · Sep 24 2014
• What is a telescoping infinite series?

  Here is an example of a telescoping series
  #sum_{n=1}^infty(1/n-1/{n+1})#
  #=(1/1-1/2)+(1/2-1/3)+(1/3-1/4)+cdots#
  As you can see above, terms are shifted with some overlapping terms, which reminds us of a telescope. In order to find the sum, we will its partial sum #S_n# first.
  #S_n=(1/1-1/2)+(1/2-1/3)+cdots+(1/n-1/{n+1})#
  by cancelling the overlapping terms,
  #=1-1/{n+1}#
  Hence, the sume of the infinite series can be found by
  #sum_{n=1}^infty(1/n-1/{n+1})=lim_{n to infty}S_n=lim_{n to infty}(1-1/{n+1})=1#

  Wataru · · Sep 8 2014
• What are infinite series used for?

  It is very tough to answer such a general question, but I will give it a shot. Infinite series allow us to add up infinitely many terms, so it is suitable for representing something that keeps on going forever; for example, a geometric series can be used to find a fraction equivalent to any given repeating decimal such as:

  #3.333...#

  by splitting into individual decimals,

  #=3+0.3+0.03+0.003+cdots#

  by rewriting into a form of geometric series,

  #=3+3(1/10)+3(1/10)^2+3(1/10)^3+cdots#

  by using the formula for the sum of geometric series,

  #=3/{1-1/10}=10/3#

  The knowledge of geometric series helped us find the fraction fairly easily. I hope that this was helpful.

  Wataru · · Sep 26 2014

• How can an infinite series have a finite sum?
• How do you evaluate an infinite series?
• How do you find the sum of an infinite series?
• How does an infinite geometric series apply to being pushed on a swing?
• What are infinite series used for?
• What is a convergent infinite series?
• What is a divergent infinite series?
• What is a partial sum of an infinite series?
• What is an oscillating infinite series?
• What is a telescoping infinite series?
• What is a collapsing infinite series?
• How do I sum the series #sum_(n=1)^oon(3/4)^n#?
• What is an example of a telescoping series and how do you find its sum?
• Suppose you go to a company that pays 0.03 for the first day, 0.06 for the second day, 0.12 for the third day and so on. If the daily wage keeps doubling, what will your total income be for working 30 days ?
• How to solve for x ?
• Question #d6180
• How do you find the infinite sum of a p series? EX: #1/n^2#
• Question #7bdf4
• What is importance of infinite series?
• how you solve: #lim_(n->oo)(2-sqrt2)(2-root(3)2)(2-root(4)2)...(2-root(n)2))# ?
• What is #sum_(n=1)^oo 1/n^2# ?
• How to prove that #{1/2^n}# is bounded series ?
• How do I truncate this infinite series by choosing an odd #l#?
• Find a series expansion for? : # (1-3x)^(2/3) #
• Calculate #sum_(n=0)^oo sqrt(n+3)+sqrtn-2sqrt(n+2)# ?
• Calc 2 questions super lost! Evaluate a power series to find the sum of the series, or show that the series diverges. (If a series diverges, enter DIVERGES.)? (a) #11/1-11/3+11/5-11/7+11/9-11/11+....# (b)#sum_(n=2)^oo ((-1)^n(8^n))/(n!) #
• #\sum_(n=1)^\inftyn/(n^4+1)#?
• Is the following series #6-2+2/3-2/9+2/27-2/81# convergent or divergent?
• Integrate the following using infinite #\bb\text(series)# ?
• Integrate the following using INFINITE SERIES (no binomial please)?
• Solve #\int(e^(2x))/(1+e^(4x))dx#, OR #\intx\arcsin(x)dx# using infinite series?
• Use series to evaluate limit below?
• What is #sum_(R=1)^(N) (1/3)^(R-1)#? provide steps please.