English

Physics

Math Geometric Sequences

Geometric Sequences

Grade 10

Sep 14, 2022

Key Concepts

Identify and describe an arithmetic sequence.
Identify and describe a geometric sequence.
Write the recursive formula for a sequence.
Use the explicit formula.
Connect geometric sequences and exponential functions.
Apply the recursive and explicit formulas.
Explain the formula for the sum of a finite geometric series.
Use a finite geometric series.

Geometric Sequences

1. Arithmetic sequence

A man is going upstairs. Height of each step is increasing constantly than the previous step.

There can be gradual change in numbers also.

A number sequence in which the common difference between two consecutive terms is constant is called an arithmetic sequence.
Example: The common difference of the given sequence is +5.

The common difference of the given sequence is +5

2. Geometric sequence

A sequence in which the constant ratio between two consecutive terms is constant is called a geometric sequence.

The common difference between the consecutive terms of the geometric sequence is not constant.
Example: The common ratio of terms of the sequence is 2

The common ratio of terms of the sequence is 2

3. Recursive formula for a sequence

We can use the recursive formula to find the next term of a geometric sequence.

Example: Write the recursive formula for a geometric sequence 2, 10, 50, 250, …

The constant ratio of the given sequence is 5.

The recursive formula for a geometric sequence is a_n = r(a_n−1)

So, the recursive formula for the sequence 2, 10, 50, 250, … is a_n = 5(a_n−1)

4. Explicit formula for a sequence

We can use the explicit formula to find the 8th term of a geometric sequence.

Example: What is the 10^th term of the geometric sequence 10.5, 21, 42, 84…?

Sol: Using the explicit formula, a_n = a₁ × (r)ⁿ⁻¹

For the given sequence, the constant ratio is 21/10.5=2=

So, a₁₀ = 10.5 × (2)⁹

=10.5 × 512

= 5376

5. Connect Geometric sequences and Exponential functions

The exponential function can be written as a geometric sequence with the first term and constant ratio using the explicit formula.

6. Connect Geometric sequences and Exponential functions

The sum of the terms of a geometric sequence is a Geometric series.

Let S_n be the sum of a geometric sequence with n terms.

Exercise

The constant ratio of the geometric sequence 3/5,3/2,15/4,75/8,… is .
Write the recursive formula for a geometric sequence 2, 16, 128, 1024, …
What is the 10th term of the geometric sequence 10.5, 21, 42, 84…?
The first term of the sequence a_3=8(1/2)^7 is _.
The constant ratio of the geometric sequence 10.5, 21, 42, 84… is __.

What we have learned

A sequence in which the common difference between two consecutive terms is constant is called an arithmetic sequence.
A sequence in which the constant ratio between two consecutive terms is constant is called a geometric sequence.

Concept Map

Comments:

Square 1 to 40 : Table, Perfect Squares, Chart and Examples

Square 1 to 40 When you multiply a number by itself, the resulting number is a square, and if you are someone who is either appearing in a competitive exam or just wants to do well in math in school, knowing square 1 to 40 is a really important skill. But manually multiplying every time, […]

Square Root : Definition, Formula, Methods and Types Explained

Square Root Square roots are one of those seemingly daunting maths topics that appear in many different situations, from algebra to geometry. Yet the concepts behind them aren’t as hard to grasp. It makes handling numbers far easier if you know the concept well. Let us understand how to find the square roots of a number […]

Cubes 1 to 20 : Chart, Table, Memory Tricks and Examples

Most students don’t struggle much with smaller cubes like 2³ or 3³. Those usually come quickly. The hesitation starts with numbers like 11³ or 17³. Or when someone suddenly asks, what is 20 cubed? That pause is not a memory problem. It’s about the lack of proper understanding and hence confidence. Naturally, learning cubes 1 […]