Still Confused?

Try reviewing these fundamentals first.

- Home
- UK Year 10 Maths
- Sequences and Series

Still Confused?

Try reviewing these fundamentals first.

Still Confused?

Try reviewing these fundamentals first.

Nope, I got it.

That's that last lesson.

Start now and get better math marks!

Get Started NowStart now and get better math marks!

Get Started NowStart now and get better math marks!

Get Started NowStart now and get better math marks!

Get Started Now- Intro Lesson4:45
- Lesson: 1a5:11
- Lesson: 1b5:12
- Lesson: 1c5:46
- Lesson: 2a7:33
- Lesson: 2b8:53

We know how to deal with geometric series with finite terms. But what if we have a series of infinite number of terms? In this section, we will explore the concept behind infinite geometric series, as well as learning how to determine whether an infinite geometric series is convergent or divergent. Just like all other series, we have a formula to help us find the sum to infinity.

Related concepts: Pascal's triangle, Binomial theorem, Introduction to infinite series, Convergence and divergence of normal infinite series ,

- Introductionif $-1 < r < 1$, an infinite series is convergent: $S<sub> ?</sub>=$ $\frac{t_1}{1-r}$

Otherwise, an infinite series is divergent: $S<sub> ?</sub>=$undefined - 1.
**Using the common ratio to determine whether a sum to infinity exists**

For each geometric series determine the:

i) common ratio.

ii) sum of the first 10 terms.

iii) sum to infinity.

a)4 + 2 + 1 + …b)2 - 10 + 50 - …c)$-\frac{9}{2}$+ 3 - 2 + … - 2.
**Expressing a repeating decimal as an infinite geometric series**

For the repeating decimal:

i) express it as an infinite geometric series.

ii) write it as a fraction by evaluating the sum of the infinite geometric series.a)$0.\overline{461}$b)$5.1\overline{23}$

We have over 1410 practice questions in UK Year 10 Maths for you to master.

Get Started Now