Rocscience International Conference 2025 is going to take place in Sydney, Australia Read more
Home
Products
All Products
Slide2
Slide3
RS2
RS3
RSLog
Settle3
RSPile
RocTunnel3
RocSlope2
RocSlope3
RocFall2
RocFall3
UnWedge
RSData
EX3
RocSupport
Dips
CPillar
Browse all
Learning
Tutorials, Documentation and more
Slide2
Slide3
RS2
RS3
RSLog
Settle3
RSPile
RocTunnel3
RocSlope2
RocSlope3
RocFall2
RocFall3
UnWedge
RSData
EX3
RocSupport
Dips
CPillar
Browse all
Support
Program Downloads
Install & Activate
License Support
Support Policy
Events
Webinars & Courses
Rocscience International Conference 2025
About
Company
Careers
Contact Us
Buy Now

All User Guides

Search Results

Normal Distribution

The Normal (or Gaussian) Distribution is the most common probability density function (PDF) and is generally used for probabilistic studies in geotechnical engineering. Unless there is a good reason to use one of the other PDFs available in RocTunnel3, it is recommended that the user choose the Normal PDF.

For a Normal Distribution, about 68% of observations should fall within one standard deviation of the mean, and about 95% of observations should fall within two standard deviations of the mean.

Normal Probability Density Function, showing Standard Deviation Ranges
Normal Probability Density Function, showing Standard Deviation Ranges

Truncated Normal Distribution

A truncated Normal Distribution can be defined for a variable by setting the desired minimum and/or maximum values for the variable. For practical purposes, minimum and maximum values that are at least 3 standard deviations away from the mean generate a complete Normal Distribution. If the minimum/maximum values are less than 3 standard deviations away from the mean, the distribution is visibly truncated.

Estimating a Standard Deviation

For a Normal Distribution, 99.73 % of all samples will fall within 3 Standard Deviations of the mean value. This fact leads to the following rule of thumb (the "Three Sigma Rule"), which allows you to estimate a standard deviation for a normally distributed random variable.

Estimate the highest conceivable value (HCV) of the random variable and the lowest conceivable value (LCV), and divide the difference between them by six:

equation

The resulting value can be taken as the Standard Deviation of the Normally Distributed random variable. This is useful if actual data is not available. This and other methods of estimating standard deviation are discussed in Duncan, 2000.

Rocscience logo, click here to return to the homepage Portal Account Portal Account Log In Log Out Home Shopping Cart icon Click here to search our site Click here to close Learning Tech Support Documentation Info Chevron Delete Back to Top View More" Previous Next PDF File Calendar Location Language Fees Video Click here to visit Rocscience's LinkedIn page Click here to visit Rocscience's YouTube page Click here to visit Rocscience's X page Click here to visit Rocscience's Facebook page Click here to visit Rocscience's Instagram page Click here to visit Rocscience's Reddit page Bookmark Network Scroll down for more Checkmark Download Print Back to top Single User Multiple Users RSLog RocFall3 CPillar Dips EX3 RocFall RocPlane RocSlope3 RocSupport RocTopple RS2 RS3 RSData RSPile RSWall Settle3 Slide2 Slide3 SWedge UnWedge RocTunnel3 RocSlope2 BlastMetrix ShapeMetriX Fragmenter TestLicense Commercial License Education License Trial License Shop safe & secure Money-back guarantee