How to find sample standard deviation

how to find standard deviation? Standard deviation is a way to calculate how spread out data is. You can use the standard deviation formula to find the average of the averages of multiple sets of data.

Confused by what that means? How do you calculate standard deviation? Don’t worry! In this article, we’ll break down exactly what standard deviation is and how to find the standard deviation.

How to Find Sample Standard Deviation Using the Standard Deviation Formula
Finding sample standard deviation using the standard deviation formula is similar to finding population standard deviation.

These are the steps you’ll need to take to find sample standard deviation.

Calculate the mean (average) of each data set.
Subtract the deviance of each piece of data by subtracting the mean from each number.
Square each deviation.
Add all the squared deviations.
Divide the value obtained in step four by one less than the number of items in the data set.
Calculate the square root of the value obtained in step five.
Let’s look at that in practice.

Say your data set is 3,2,4,5,6.

#1: Calculate Your Mean
First, calculate your mean:

(3+2+4+5+6)=20

20
5
=4

#2: Subtract the Mean and Square the Result
Next, subtract the mean from each of the values and square the result.

(3−4)2=1

(2−4)2=4

(4−4)2=0

(5−4)2=1

(6−4)2=2

#3: Add All the Squares
Add all the squares together.

1+4+0+1+2=8

#4: Subtract One From the Initial Number of Values You Had
Subtract one from the number of values you started with.

5−1=4

#5: Divide the Sum of the Squares by the Number of Values Minus One
Divide the sum of all the squares by the number of values minus one.

8
4
=2

#6: Find the Square
Take the square root of that number.

√2=1.41

When to Use Population Standard Deviation Formula and When to Use Sample Standard Deviation Formula
The equations for both types of standard deviation are very similar. You might be wondering: When should I use the population standard deviation formula? When should I use the sample standard deviation formula?

The answer to that question lies in the size and nature of your data set. If you have a larger, more generalized data set, you’ll use sample standard deviation. If you have specific data points from every member of a small data set, you’ll use population standard deviation.

Here’s an example:

If you are analyzing the test scores of a class, you’ll use population standard deviation. That’s because you have every score for every member of the class.

If you’re analyzing the effects of sugar on obesity from people ages 30 to 45, you’ll use sample standard deviation, because your data represents a larger set.

Summary: How to Find Sample Standard Deviation and Population Standard Deviation
Standard deviation is a formula used to calculate the averages of multiple sets of data. There are two standard deviation formulas: the population standard deviation formula and the sample standard deviation formula.

What Is Standard Deviation?

Standard deviation is a formula used to calculate the averages of multiple sets of data. Standard deviation is used to see how closely an individual set of data is to the average of multiple sets of data.

There are two types of standard deviation that you can calculate:

Population standard deviation is when you collect data from all members of a population or set . For population standard deviation, you have a set value from each person in the population.

Sample standard deviation is when you calculate data that represents a sample of a large population . In contrast to population standard deviation, sample standard deviation is a statistic. You’re only taking samples of a larger population, not using every single value as with population standard deviation.

The equations for both types of standard deviation are pretty close to each other, with one key difference: in population standard deviation, the variance is divided by the number of data points (N). In sample standard deviation, it’s divided by the number of data points minus one (N−1).

Standard Deviation Formula: How to Find Standard Deviation (Population)

Here’s how you can find population standard deviation by hand:

  1. Calculate the mean (average) of each data set.
  2. Subtract the deviance of each piece of data by subtracting the mean from each number.
  3. Square each deviation.
  4. Add all the squared deviations.
  5. Divide the value obtained in step four by the number of items in the data set.
  6. Calculate the square root of the value obtained in step five.

That’s a lot to remember! You can also use a standard deviation formula.

The commonly used population standard deviation formula is:

σ=√

(Σ(x−μ)2)
N

In this formula:

σ is the population standard deviation

Σ represents the sum or total from 1 to N (so, if N=9, then Σ=8)

x is an individual value

μ is the average of the population

N is the total number of the population

How to Find Standard Deviation (Population): Sample Problem

You have collected 10 rocks and measure the length of each in millimeters. Here’s your data:

3,5,5,6,12,10,14,4,5,8

Let’s say you’re asked to calculate the population standard deviation of the length of the rocks.

Here are the steps to solve for that:

#1: Calculate the Mean of the Data

First, calculate the mean of the data. You’ll be finding the average of the data set.

(3+5+5+6+12+10+14+4+13+8)=80

80
10

=8

#2: Subtract the Average From Each Data Point, Then Square

Next, subtraction the average from each data point, then square the result.

(3−8)2=25

(5−8)2=9

(5−8)2=9

(6−8)2=4

(12−8)2=16

(10−8)2=4

(14−8)2=6

(4−8)2=4

(5−8)2=9

(8−8)2=0

#3: Calculate the Mean of Those Squared Differences

Next, calculate the mean of the squared differences:

25+9+9+4+16+4+6+4+9+0=86

86
10

=8.6

This number is the variance. The variance is 8.6.

#4: Find the Square Root of the Variance

To find the population standard deviation, find the square root of the variance.

√(8.6)=2.93

You can also solve using the population standard deviation formula:

σ=√

(Σ(x−μ)2)
N

The expression

(Σ(x−μ)2)
N

is used to represent the population variance. Remember, before we found that the variance is 8.6.

Plugged into the equation you get

σ=√8.6

σ=2.93