Normal distributions review (article) | Khan Academy (2024)

Early statisticians noticed the same shape coming up over and over again in different distributions—so they named it the normal distribution.

Normal distributions have the following features:

• symmetric bell shape
• mean and median are equal; both located at the center of the distribution
• $\approx 68\mathrm{\%}$‍ of the data falls within $1$‍ standard deviation of the mean
• $\approx 95\mathrm{\%}$‍ of the data falls within $2$‍ standard deviations of the mean
• $\approx 99.7\mathrm{\%}$‍ of the data falls within $3$‍ standard deviations of the mean

Want to learn more about what normal distributions are? Check out this video.

The trunk diameter of a certain variety of pine tree is normally distributed with a mean of $\mu =150\text{cm}$‍ and a standard deviation of $\sigma =30\text{cm}$‍.

Sketch a normal curve that describes this distribution.

Solution:

Step 1: Sketch a normal curve.

Step 2: The mean of $150\text{cm}$‍ goes in the middle.

Step 3: Each standard deviation is a distance of $30\text{cm}$‍.

A certain variety of pine tree has a mean trunk diameter of $\mu =150\text{cm}$‍ and a standard deviation of $\sigma =30\text{cm}$‍.

Approximately what percent of these trees have a diameter greater than $210\text{cm}$‍?

Solution:

Step 1: Sketch a normal distribution with a mean of $\mu =150\text{cm}$‍ and a standard deviation of $\sigma =30\text{cm}$‍.

Step 2: The diameter of $210\text{cm}$‍ is two standard deviations above the mean. Shade above that point.

Step 3: Add the percentages in the shaded area:

About $2.5\mathrm{\%}$‍ of these trees have a diameter greater than $210\text{cm}.$‍

Want to see another example like this? Check out this video.

Want to practice more problems like this? Check out this exercise on the empirical rule.

A certain variety of pine tree has a mean trunk diameter of $\mu =150\text{cm}$‍ and a standard deviation of $\sigma =30\text{cm}$‍.

A certain section of a forest has $500$‍ of these trees.

Approximately how many of these trees have a diameter smaller than $120\text{cm}$‍?

Solution:

Step 1: Sketch a normal distribution with a mean of $\mu =150\text{cm}$‍ and a standard deviation of $\sigma =30\text{cm}$‍.

Step 2: The diameter of $120\text{cm}$‍ is one standard deviation below the mean. Shade below that point.

Step 3: Add the percentages in the shaded area:

About $16\mathrm{\%}$‍ of these trees have a diameter smaller than $120\text{cm}.$‍

Step 4: Find how many trees in the forest that percent represents.

We need to find how many trees $16\mathrm{\%}$‍ of $500$‍ is.

About $80$‍ trees have a diameter smaller than $120\text{cm}$‍.