Pre-CalculusIntermediate

Sequences and Series

A sequence is an ordered list of numbers following a pattern. A series is the sum of a sequence. Understanding sequences and series is essential for calculus, where limits of infinite series appear in Taylor series, integrals, and fundamental theorems.

In this lesson

What sequences are
Arithmetic sequences
Geometric sequences
Series and summation notation
Infinite geometric series

1 What Sequences Are

A sequence is a list of numbers in a specific order, typically defined by a rule. The numbers are called terms: a₁ (first term), a₂ (second term), and so on. The general term aₙ gives the nth term as a formula.

Examples: 2, 4, 6, 8, 10... (even numbers). 1, 1, 2, 3, 5, 8, 13... (Fibonacci). 1, 1/2, 1/4, 1/8... (halving each time). Each has a pattern that can be expressed as a formula for aₙ.

2 Arithmetic Sequences

An arithmetic sequence adds the same number every step. 3, 7, 11, 15 adds 4 each time. The common difference is 4. General term: aₙ = a₁ + (n−1)d

Arithmetic Sequence

Find the 20th term of 3, 7, 11, 15...

1Common difference: d = 7−3 = 4

2First term: a₁ = 3

3aₙ = a₁ + (n−1)d = 3 + (20−1)(4) = 3 + 76 = 79

Answer: 20th term = 79

Sum of an arithmetic sequence (arithmetic series): Sₙ = n/2 × (a₁ + aₙ) = n/2 × (2a₁ + (n−1)d)

Sum of Arithmetic Series

Sum of the first 20 terms of 3, 7, 11, 15...

1a₁ = 3, a₂₀ = 79 (from above), n = 20

2S₂₀ = 20/2 × (3 + 79) = 10 × 82 = 820

Answer: S₂₀ = 820

3 Geometric Sequences

A geometric sequence multiplies by the same number every step. 2, 6, 18, 54 multiplies by 3 each time. The common ratio is 3. General term: aₙ = a₁ × rⁿ⁻¹

Geometric Sequence

Find the 8th term of 2, 6, 18, 54...

1Common ratio: r = 6/2 = 3

2a₈ = 2 × 3⁷ = 2 × 2187 = 4,374

Answer: 8th term = 4,374

Sum of finite geometric series: Sₙ = a₁(1−rⁿ)/(1−r) for r ≠ 1.

4 Series and Summation Notation

Summation notation (Σ) compactly represents sums. Σᵢ₌₁ⁿ aᵢ means "sum the terms aᵢ for i from 1 to n."

Σᵢ₌₁⁵ i² = 1² + 2² + 3² + 4² + 5² = 1+4+9+16+25 = 55

Why series matter for calculus

Taylor series express functions as infinite polynomial sums: eˣ = 1 + x + x²/2! + x³/3! + ... This allows functions to be approximated to arbitrary precision, which is fundamental to numerical computation and advanced calculus.

5 Infinite Geometric Series

Add up infinitely many terms and you might expect to get infinity. Sometimes you do. But if each term is smaller than the previous by a consistent ratio less than 1, the total converges to a finite number. S∞ = a₁/(1−r)

Infinite Geometric Series

Sum of 1 + 1/2 + 1/4 + 1/8 + ...

1a₁ = 1, r = 1/2, |r| < 1 so series converges

2S∞ = a₁/(1−r) = 1/(1−1/2) = 1/(1/2) = 2

3Intuition: fill half a cup, then half again, then half again , you approach but never exceed 2 cups

Answer: S∞ = 2

Series with |r| ≥ 1 diverge

1 + 2 + 4 + 8 + ... has r=2. Since |r| > 1, the series diverges , the sum grows without bound. The formula S∞ = a₁/(1−r) only applies when |r| < 1.

Practice Problems

Find the 15th term of the arithmetic sequence 5, 9, 13, 17...

d=4, a₁=5. a₁₅ = 5 + (14)(4) = 5 + 56 = 61

Find the sum of the infinite geometric series 4 + 2 + 1 + 0.5 + ...

a₁=4, r=1/2. S∞ = 4/(1−0.5) = 4/0.5 = 8

A geometric sequence has a₁=3 and r=2. What is a₅?

a₅ = 3 × 2⁴ = 3 × 16 = 48

Sources & Further Reading

The explanations on this page draw on the following established sources. We link to primary and secondary sources so you can verify claims and go deeper on any topic.

Khan AcademySequences and SeriesFull video series Math is FunSequencesVisual explanation Paul's NotesSeriesFree calculus textbook WikipediaSequenceFormal definition