Difference between revisions of "Manuals/calci/LOGNORMDIST"

Latest revision as of 10:22, 2 June 2020

LOGNORMDIST(Number,Mean,StandardDeviation,Accuracy)

$Number$ is the value.
$Mean$ is the mean value of $log(x)$ ,
$StandardDeviation$ is the standard deviation value of $log(x)$ .
is correct decimal places for the result.
- LOGNORMDIST(), returns the cumulative lognormal distribution.

Description

This function gives the value of the cumulative log normal distribution.
This distribution is the continuous probability distribution.
Lognomal distribution is also called Galton's distribution.
A random variable which is log-normally distributed takes only positive real values.
Suppose $x$ is Normally Distributed function, then $y=ln(x)$ also Normally Distributed
$z=exp(y)$ also Normally Distributed.
Let the Normal Distribution function $x$ and its Mean= $\mu$ , Standard Deviation = $\sigma$
Then the lognormal cumulative distribution is calculated by:

$F(x,\mu ,\sigma )={\frac {1}{2}}\left[1+erf\left({\frac {ln(x)-\mu )}{\sigma {\sqrt {2}}}}\right)\right]=\varphi \left[{\frac {ln(x)-\mu }{\sigma }}\right]$ where $erf$ is the error function,. The error function (also called the Gauss error function) is a special function of sigmoid shape which occurs in probability, statistics and partial differential equations.

And $\phi$ is the Cumulative Distribution function of the Standard Normal distribution.
This function will give the result as error when

1. Any one of the argument is non-numeric.
2. Suppose  $Number\leq 0$  or  $StandardDeviation\leq 0$

ZOS

The syntax is to calculate cumulative log normal distribution in ZOS is .
- $Number$ is the value.
- $Mean$ is the mean value of $log(x)$ .
- $StandardDeviation$ is the standard deviation value of $log(x)$ .
For e.g.,LOGNORMDIST(10,8.002,4.501)

Log Normal Distribution

Examples

=LOGNORMDIST(2,5.4,2.76) = 0.044061652
=LOGNORMDIST(10,24.05,12.95) = 0.046543186
=LOGNORMDIST(50,87.0036,42.9784) = 0.026597569
=LOGNORMDIST(-10,5,2) = #N/A (NUMBER GREATER THAN (OR) NOT EQUAL TO 0)

References

Log-normal distribution

List of Main Z Functions

Z3 home

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-<div id="6SpaceContent" class="zcontent" align="left">
+<div style="font-size:30px">'''LOGNORMDIST(Number,Mean,StandardDeviation,Accuracy)'''</div><br/>
+*<math>Number</math> is the value.
+*<math>Mean </math> is the mean value of <math>log(x)</math>,
+*<math>StandardDeviation</math> is the standard deviation value of <math>log(x)</math>.
+*<math>Accuracy</math> is correct decimal places for the result.
+** LOGNORMDIST(), returns the cumulative lognormal distribution.
-'''LOGNORMDIST'''(n,'''m''',''' sd''')
+==Description==
+*This function gives the value of the cumulative log normal distribution.
+*This  distribution is the continuous probability distribution.
+*Lognomal distribution is also called Galton's distribution.
+*A random variable which is log-normally distributed takes only positive real values.
+*Suppose <math>x</math> is Normally Distributed function, then <math> y=ln(x)</math> also Normally Distributed
+*<math> z=exp(y)</math> also Normally Distributed.
+*Let the Normal Distribution function <math>x</math> and its Mean= <math>\mu</math>, Standard Deviation = <math>\sigma</math>
+*Then the  lognormal cumulative distribution is calculated by:
+<math>F(x,\mu,\sigma)=\frac{1}{2} \left[1+ erf \left (\frac{ln(x)-\mu)}{\sigma \sqrt{2}}\right)\right ]= \varphi\left[\frac{ln(x)-\mu}{\sigma}\right ]</math>
+where <math>erf</math> is the  error function,. The error function (also called the Gauss error function) is a special function  of sigmoid shape which occurs in probability, statistics and partial differential equations.
+*And <math>\phi</math> is the Cumulative Distribution function of the Standard Normal distribution.
+*This function will give the result as error when
+. Any one of the argument is non-numeric.
+. Suppose <math> Number \le 0 </math> or <math> StandardDeviation \le 0</math>
-'''Where n'''  is the value for which the function is evaluated and  m   is the mean of ln(x).
+==ZOS==
+*The syntax is to calculate cumulative log normal distribution in ZOS is <math>LOGNORMDIST(Number,Mean,StandardDeviation,Accuracy)</math>.
+**<math>Number</math> is the value.
+**<math>Mean </math> is the mean value of <math>log(x)</math>.
+**<math> StandardDeviation</math> is the standard deviation value of <math>log(x)</math>.
+*For e.g.,LOGNORMDIST(10,8.002,4.501)
+{{#ev:youtube|rFnzI4pLSuo|280|center|Log Normal Distribution}}
-'''sd'''   is the standard deviation of ln(x).
+==Examples==
+#=LOGNORMDIST(2,5.4,2.76) = 0.044061652
+#=LOGNORMDIST(10,24.05,12.95) = 0.046543186
+#=LOGNORMDIST(50,87.0036,42.9784) = 0.026597569
+#=LOGNORMDIST(-10,5,2) = #N/A (NUMBER GREATER THAN (OR) NOT EQUAL TO 0)
-</div>
+==Related Videos==
-----
-<div id="1SpaceContent" class="zcontent" align="left">
-It calculates the cumulative lognormal distribution of x, where ln(x) is distributed with parameters as mean and standard deviation.
+{{#ev:youtube|9rMpraPPQ2A|280|center|Lognormal Distribution}}
-</div>
+==See Also==
-----
+*[[Manuals/calci/LN  | LN ]]
-<div id="7SpaceContent" class="zcontent" align="left">
+*[[Manuals/calci/LOG10  | LOG10 ]]
+*[[Manuals/calci/EXP  | EXP ]]
-·          When arguments are nonnumeric ,LOGNORMDIST shows error.
+==References==
+[http://en.wikipedia.org/wiki/Log-normal_distribution Log-normal distribution]
-·          LOGNORMDIST displays 0, when  n ≤ 0 or sd ≤ 0.
-·          The equation for the lognormal cumulative distribution function is:
-</div>
-----
-<div id="12SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="left">
-LOGNORMDIST
+*[[Z_API_Functions | List of Main Z Functions]]
-</div></div>
+*[[ Z3 |   Z3 home ]]
-----
-<div id="8SpaceContent" class="zcontent" align="left">
-<font size="3"><font face="Times New Roman">Lets see an example in (Column1 Row 1,Column2Row1, Column3Row1)</font></font>
-<font size="3">LOGNORMDIST (n, m,sd)</font>
-<font size="3">LOGNORMDIST (C1R1, C2R1,C3R1)</font>
-<font size="3">i.e. =LOGNORMDIST (5, 4.5, 2.2) is 0.09472</font>
-</div>
-----
-<div id="10SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Syntax </div><div class="ZEditBox"><center></center></div></div>
-----
-<div id="4SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Remarks </div></div>
-----
-<div id="3SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Examples </div></div>
-----
-<div id="11SpaceContent" class="zcontent" align="left"><div class="ZEditBox" align="justify">Description </div></div>
-----
-<div id="2SpaceContent" class="zcontent" align="left"><div>
-{| id="TABLE3" class="SpreadSheet blue"
-|- class="even"
-| class=" " |
-| Column1
-| class="        " | Column2
-| class="    " | Column3
-| class="  " |
-| class="  " | Column4
-|
-|- class="odd"
-| class=" " | Row1
-| class=" " | 5
-| class=" " | 4.5
-| class="sshl_f " | 2.2
-| class="sshl_f" |
-| class="sshl_f" |
-|
-|- class="even"
-| class="  " | Row2
-| class="sshl_f" | 0.094718
-| class="sshl_f" | 0
-| class="sshl_f" |
-| class="sshl_f" |
-| class="sshl_f" |
-|
-|- class="odd"
-| Row3
-| class="sshl_f SelectTD SelectTD" |
-<div id="2Space_Handle" title="Click and Drag to resize CALCI Column/Row/Cell. It is EZ!"></div><div id="2Space_Copy" title="Click and Drag over to AutoFill other cells."></div>
-| class="sshl_f" |
-| class="sshl_f" |
-| class="   " |
-| class="sshl_f" |
-|
-|- class="even"
-| Row4
-| class="sshl_f" |
-| class="sshl_f" |
-|
-| class=" " |
-| class="sshl_f" |
-|
-|- class="odd"
-| class="sshl_f" | Row5
-| class="sshl_f" |
-| class="  " |
-|
-|
-| class="  " |
-|
-|- class="even"
-| class=" " | Row6
-| class="sshl_f" |
-| class="sshl_f" |
-|
-| class="sshl_f" |
-|
-|
-|}
-<div align="left"></div>''''''</div></div>
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Difference between revisions of "Manuals/calci/LOGNORMDIST"

Latest revision as of 10:22, 2 June 2020

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