(b) What is a convergent series? What is a divergent series? A series is divergent if the nth term converges to zero. A series is convergent if it is not divergent. A convergent series is a series for which lim n → [infinity] an exists. A series is convergent if it is not divergent. A series is convergent if the sequence of partial sums is a convergent sequence. A series is divergent if it is not convergent. A series is convergent if the nth term converges to zero. A series is divergent if it is not convergent. A series is divergent if the sequence of partial sums is a convergent sequence. A series is convergent if it is not divergent.

If limit exist and partial sum converges or individual term approaches zero then series is convergent otherwise divergent and further checked by methods explained below.

Step-by-step explanation:

Given:

Explanatory Question on convergent and divergent series

To Find :

What are convergent and divergent series?

Solution:

Convergent series:

A series said to be convergent when the limits of the series converges to the finite possible value for the series.

Consider a series

Sn=a1+a2+a3+a4+........+an

this form a new series as ,

Sn(n=1 to infinity)=[tex]\lim_{n \to \infty} a_n[/tex]

=s.

It is important that, partial sum of series, there should be a limit existed and that is finite in nature then only series converges.

The geometric series gives proper idea how limit decides the convergent and divergent nature.

A series in which the individual term ,approaches zero then series is convergent in nature but not for all time.

The series,

A convergent series is series for which limit exist.
If the sequence of partial sum is convergent sequence.

G(r,c)=[tex]\frac{c}{(1-r)}[/tex] r+c

where r≠1 then series is converges.

Divergent series:

A series is infinite series with which does not converges at any point ,

had a infinity sequence of partial sums with no finite limit.

A series where individual sum does not approaches zero diverges.

For e.g.

[tex]\lim_{n \to \infty} (-1)^n[/tex]

This series diverges.

Or harmonic series which diverges.

Where is limit tends to infinity ,eventually series added up to infinity means no exact answer will be there.

For summing the divergent series there method as :

FFT
extrapolation methods.
Abelian theorems
Regularity,linearity and stability test for the series.

If these test are checked then we will get to know that which series diverges and converges.

xero099 xero099 · Answer 2 · 2022-04-08T16:44:04+02:00

A series is convergent if the n-th term converges to zero. A series is divergent if it is not convergent.

Brief explanation on convergence of series

A series can be seen as generalization of the addition, defined in the concept of field, and that represent any object with finite or infinite sum of elements from a given progression.

Convergence and divergence are concepts associated to infinite series. A series is convergent if and only if the sum tends to a value L when n → +∞. Otherwise, the series is divergent.

This mean that the limit of n-th term of the series must tend to zero when n → +∞.

Based on this exposition, we have the following conclusions: A series is convergent if the n-th term converges to zero. A series is divergent if it is not convergent.

To learn more on series, we kindly invite to check this verified question: https://brainly.com/question/11346378