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Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET PDF Download

A power series is a series of the form

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

where x is a variable and the c[n] are constants called the coefficients of the series. We can define the sum of the series as a function

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

with domain the set of all x for which the series converges.

More generally, a series of the form

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

is called a power series in (x-a) or a power series at a. So, the question becomes "when does the power series converge?" Any of the series tests are available for use, but most often the Ratio Test is used. It tells us that the series converges when the limit of the ratio of the n+1st term to the nth term is less than one in absolute value, and diverges when the limit is greater than one in absolute value. In general, this boils down to

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET.

When this limit is between -1 and 1, the series converges.

There are only three possibilities for how this series can converge:

  • The series only converges at x=a
  • The series converges for all x
  • There is some positive number R such that the series converges for |x-a|<R and diverges for |x-a|>R.

In the third case, R is called the radius of convergence. Note that the special cases of |x-a|=R need to be checked separately. If the series only converges at a, we say the radius of convergence is zero, and if it converges everywhere, we say the radius of convergence is infinite.

For example, look at the power series

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

Using the ratio test, we find that

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

so the series converges when x is between -1 and 1. If x=1, then we get

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

which diverges, since it is the harmonic series. If x=-1, then we get

Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

which converges, by the Alternating Series Test. So, the power series above converges for x in [-1,1).

One fact that may occasionally be helpful for finding the radius of convergence: if the limit of the nth root of the absolute value of c[n] is K, then the radius of convergence is 1/K.

The document Power Series - Complex Analysis, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET is a part of the Mathematics Course Mathematics for IIT JAM, GATE, CSIR NET, UGC NET.
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FAQs on Power Series - Complex Analysis, CSIR-NET Mathematical Sciences - Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

1. What is a power series in complex analysis?
Ans. A power series in complex analysis is an infinite series of the form $\sum_{n=0}^\infty a_n(z-z_0)^n$, where $a_n$ and $z_0$ are complex numbers and $z$ is a complex variable. It represents a function that is analytic within a certain radius of convergence and can be used to approximate functions in a given domain.
2. How is the radius of convergence of a power series determined?
Ans. The radius of convergence of a power series can be determined using the ratio test. The ratio test states that if the limit $\lim_{n\to\infty} \left|\frac{a_{n+1}}{a_n}\right|$ exists, then the radius of convergence is given by $R = \frac{1}{\lim_{n\to\infty} \left|\frac{a_{n+1}}{a_n}\right|}$. If the limit is zero, the radius of convergence is infinite, and if the limit is infinity, the radius of convergence is zero.
3. What is the importance of the radius of convergence in power series?
Ans. The radius of convergence in power series is important as it determines the domain where the power series converges and represents the analytic behavior of the function. Inside the radius of convergence, the power series converges absolutely and uniformly, allowing for various mathematical operations and approximations. Outside the radius of convergence, the power series diverges and cannot be used to represent the function.
4. How can a power series be used to approximate functions?
Ans. A power series can be used to approximate functions by expanding the function as a power series and truncating it at a certain term. By choosing a sufficiently large number of terms, the power series can closely approximate the behavior of the function within its radius of convergence. This technique is particularly useful in numerical analysis and solving differential equations.
5. Can a power series converge at its boundary?
Ans. A power series can converge at its boundary, but the convergence behavior at the boundary is not guaranteed. It may converge absolutely, conditionally, or not at all. The behavior depends on the specific function being represented by the power series and can be determined using additional convergence tests such as the alternating series test or the integral test. Therefore, it is important to analyze the convergence behavior both inside and at the boundary of the radius of convergence.
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