# Excel Tutorial: How To Plot Normal Distribution Curve In Excel

## Introduction

Understanding normal distribution is crucial in many statistical analyses. The normal distribution curve, also known as the bell curve, is a symmetrical distribution of data around the mean. It helps in understanding the probability of various outcomes and is widely used in fields such as finance, economics, and natural sciences. Plotting a normal distribution curve in Excel can aid in visualizing data and making informed decisions based on statistical analysis. In this tutorial, we will walk you through the steps of how to plot a normal distribution curve in Excel.

## Key Takeaways

• Understanding normal distribution is crucial in statistical analyses in various fields.
• Plotting a normal distribution curve in Excel can aid in visualizing data and making informed decisions based on statistical analysis.
• The normal distribution curve, also known as the bell curve, is a symmetrical distribution of data around the mean.
• Standard deviation and mean are key components in understanding and interpreting normal distribution curves.
• Customizing and interpreting the normal distribution curve in Excel is essential for data analysis and decision making.

## Understanding Normal Distribution

Normal distribution is a statistical concept that is widely used in various fields to analyze and interpret data. It is a bell-shaped curve that is symmetrical around the mean, with the majority of the data falling within one standard deviation of the mean.

A. Definition of normal distribution

Normal distribution, also known as Gaussian distribution, is a probability distribution that is characterized by a symmetrical bell-shaped curve. In a normal distribution, the mean, median, and mode are all equal, and the curve is defined by the mean and the standard deviation.

B. Characteristics of normal distribution curve
• 1. Symmetry: The normal distribution curve is symmetrical around the mean, with the data points evenly distributed on both sides of the mean.
• 2. Bell-shaped curve: The curve is bell-shaped, with the peak at the mean and the tails extending infinitely in both directions.
• 3. Empirical Rule: According to the empirical rule, approximately 68% of the data falls within one standard deviation of the mean, 95% within two standard deviations, and 99.7% within three standard deviations.

C. Use of standard deviation and mean in normal distribution

In normal distribution, the mean represents the center of the curve, and the standard deviation determines the spread of the data points around the mean. The standard deviation also helps in identifying the percentage of data points within a certain range from the mean, as per the empirical rule.

## Data Preparation in Excel

A. Inputting data into Excel spreadsheet

• Open a new Excel spreadsheet and enter the data points for which you want to plot the normal distribution curve.
• Make sure to list the data points in a single column or row, with each data point in its own cell.

B. Calculating mean and standard deviation

• To calculate the mean of the data, use the AVERAGE function in Excel, specifying the range of cells containing the data points.
• To calculate the standard deviation of the data, use the STDEV.S function in Excel, again specifying the range of cells containing the data points.

C. Organizing data for plotting

• Create a new column next to your original data and label it "Probability Density".
• In the first cell of the "Probability Density" column, input the formula for the normal distribution function, using the mean and standard deviation calculated earlier, and referencing the corresponding data point cell in the original data column.
• Drag the fill handle down to copy the formula to the rest of the cells in the "Probability Density" column, so that each data point has a corresponding calculated value for the normal distribution function.

## Creating Normal Distribution Curve

When working with data in Excel, you may need to visualize the distribution of your data using a normal distribution curve. This can be easily achieved by creating a scatter plot in Excel and adding the data series for the normal distribution curve.

### Accessing the "Insert" tab in Excel

To begin creating a normal distribution curve in Excel, open your Excel workbook and navigate to the "Insert" tab at the top of the Excel window.

### Selecting "Scatter" plot option

From the "Insert" tab, locate the "Charts" group and click on the "Scatter" plot option. This will create a blank scatter plot on your worksheet.

### Choosing "Design" and "Select Data" options

Now that you have a scatter plot in place, right-click on the plot and select the "Select Data" option. This will open the "Select Data Source" dialog box.

### Adding the data series for the curve

In the "Select Data Source" dialog box, click on the "Add" button to add a new data series for the normal distribution curve. Enter the x-values and corresponding y-values for the curve, and then click "OK" to apply the changes. Your normal distribution curve will now be plotted on the scatter plot.

## Customizing the Curve

After plotting the normal distribution curve in Excel, you may want to customize its appearance and add titles and axis labels to make it more visually appealing and informative. Here are some ways to customize the curve:

A. Changing the appearance of the curve
• Line Style: To change the appearance of the curve, right-click on the curve to open the "Format Data Series" menu. Under the "Line" tab, you can change the line style, color, and width to make the curve stand out.
• Background Color: You can also change the background color of the plot area to create a better contrast with the curve. Simply right-click on the plot area and select "Format Plot Area" to change the fill color.

B. Adding titles and axis labels
• Title: To add a title to the chart, click on the chart to select it, then go to "Chart Tools" > "Layout" > "Chart Title" and choose where you want the title to appear.
• Axis Labels: To add axis labels, click on the chart to select it, then go to "Chart Tools" > "Layout" > "Axis Titles" and choose whether you want to add a title for the horizontal or vertical axis.

C. Adjusting the scale of the axes
• Horizontal Axis: To adjust the scale of the horizontal axis, right-click on the axis and select "Format Axis." In the "Axis Options" menu, you can change the minimum, maximum, and units of the axis.
• Vertical Axis: To adjust the scale of the vertical axis, right-click on the axis and select "Format Axis." In the "Axis Options" menu, you can change the minimum, maximum, and units of the axis.

## Interpreting the Curve

When plotting a normal distribution curve in Excel, it is important to be able to interpret the curve to understand the underlying data distribution. Here are the key points to consider when interpreting the curve:

A. Understanding the peak and spread of the curve

The peak of the normal distribution curve represents the mean or average of the data. It indicates the most probable value in the distribution. The spread of the curve, on the other hand, is determined by the standard deviation and represents the variability of the data points around the mean.

B. Identifying the mean and standard deviation on the curve

On the normal distribution curve, the mean is located at the peak of the curve. It is the central value around which the data is distributed. The standard deviation is represented by the width of the curve. A larger standard deviation leads to a wider curve, indicating a more spread out distribution, whereas a smaller standard deviation results in a narrower curve, signifying a more clustered distribution of data points around the mean.

C. Analyzing the data distribution represented by the curve

By examining the normal distribution curve, one can analyze the symmetry and skewness of the data distribution. If the curve is perfectly symmetrical, the data is evenly distributed around the mean. Any deviation from symmetry indicates skewness in the distribution, with the tail of the curve pointing towards the side with fewer data points.

## Conclusion

After learning how to plot a normal distribution curve in Excel, it is clear how important this skill is for anyone working with data. By visualizing the distribution of data points, we can gain valuable insights and make informed decisions. I encourage you to practice and utilize the skills learned in this tutorial to enhance your data analysis capabilities.

Understanding and interpreting normal distribution curves is crucial in various fields such as finance, quality control, and scientific research. By mastering this technique, you will be better equipped to extract meaningful information from your data, leading to more accurate conclusions and informed decision-making.

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