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m (Text replacement - "\[https?\:\/\/en\.wikipedia\.org\/wiki\/([^ ]+) (.+)\]" to "{{Wikipedia|$1|$2}}")
m (Text replacement - "<sqf>([^↵][^<]*↵[^<]*)<\/sqf>" to "<sqf> $1 </sqf>")
 
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{{RV|type=command
{{RV|type=command


| ofp
|game1= ofp
|version1= 1.00


|1.00
|game2= ofpe
|version2= 1.00
 
|game3= arma1
|version3= 1.00
 
|game4= arma2
|version4= 1.00
 
|game5= arma2oa
|version5= 1.50
 
|game6= tkoh
|version6= 1.00
 
|game7= arma3
|version7= 0.50


|gr1= Math
|gr1= Math


| Base-10 logarithm of x.
|descr= Base-10 logarithm of x. [[File:A3 logx.jpg|thumb|The function of log(x) will never touch the y-axis.]]
 
|s1= [[log]]  x
 
|p1= x: [[Number]] - a positive number


| '''log''' x
|r1= [[Number]]


|p1= x: [[Number]]
|x1= <sqf>_log = log 10;</sqf>


| [[Number]]
|x2= <sqf>_log = log abs -10;</sqf>
 
|x1= <code>_log = [[log]] 10; // 1</code>


| [[Math Commands]], {{Wikipedia|Logarithm|Logarithm}}
|x3= <sqf>finite log -10; // Returns false</sqf>
 
|seealso= [[Math Commands]] {{Link|https://en.wikipedia.org/wiki/Logarithm|Logarithm}}
}}
}}


<dl class="command_description">
<dl class="command_description">
<dt></dt>
<dd class="notedate">Posted on 23:14, 16 Jun 2014</dd>
<dd class="notedate">Posted on 23:14, 16 Jun 2014</dd>
<dt class="note">[[User:ffur2007slx2_5|ffur2007slx2_5]]</dt>
<dt class="note">[[User:ffur2007slx2_5|ffur2007slx2_5]]</dt>
<dd class="note">
<dd class="note">
(A3 1.20) To clarify:
To clarify:
<code>y = 10 ^ x // x = [[log]] y</code>
<sqf>y = 10 ^ x // x = log y</sqf>
People use logarithm at the purpose of simplifying multiplication via exponents plus years before.
People use logarithm at the purpose of simplifying multiplication via exponents plus years before.
<code>23456*45634 = 1.07039e+009
<sqf>
[[log]] 23456 = 4.37025; [[log]] 45634 = 4.65929; ([[log]] 23456) + ([[log]] 45634) = 9.02954
23456*45634 = 1.07039e9
10^(([[log]] 23456) + ([[log]] 45634)) = 10 ^ 9.02954  // same as 23456*45634
log 23456 = 4.37025; log 45634 = 4.65929; (log 23456) + (log 45634) = 9.02954
</code>
10^((log 23456) + (log 45634)) = 10 ^ 9.02954  // same as 23456*45634
</sqf>
As modern usage, for instance, to evaluate another exponent when multiple is known (Which magnitude is 4 times stronger than 8.3 earthquake?):
As modern usage, for instance, to evaluate another exponent when multiple is known (Which magnitude is 4 times stronger than 8.3 earthquake?):
<code>//_Unknown = [[log]] x; 8.3 = [[log]] y
<sqf>
//_Unknown = log x; 8.3 = log y
// x = 10 ^_Unknown; y = 10 ^8.3
// x = 10 ^_Unknown; y = 10 ^8.3
//x/y = (10 ^_Unknown)/(10 ^8.3) = [[log]] 4
//x/y = (10 ^_Unknown)/(10 ^8.3) = log 4
// x/y = _Unknown – 8.3 = 0.6
// x/y = _Unknown – 8.3 = 0.6
//_result = 8.9 magnitude
//_result = 8.9 magnitude
_result = ([[log]] 4) + 8.3
_result = (log 4) + 8.3
</code>
</sqf>
</dd>
</dd>
</dl>
</dl>
{{GameCategory|arma1|Scripting Commands}}
{{GameCategory|arma2|Scripting Commands}}
{{GameCategory|arma3|Scripting Commands}}
{{GameCategory|tkoh|Scripting Commands}}

Latest revision as of 19:43, 3 September 2024

Hover & click on the images for description

Description

Description:
Base-10 logarithm of x.
The function of log(x) will never touch the y-axis.
Groups:
Math

Syntax

Syntax:
log x
Parameters:
x: Number - a positive number
Return Value:
Number

Examples

Example 1:
_log = log 10;
Example 2:
_log = log abs -10;
Example 3:
finite log -10; // Returns false

Additional Information

See also:
Math Commands Logarithm

Notes

Report bugs on the Feedback Tracker and/or discuss them on the Arma Discord or on the Forums.
Only post proven facts here! Add Note
Posted on 23:14, 16 Jun 2014
ffur2007slx2_5
To clarify:
y = 10 ^ x // x = log y
People use logarithm at the purpose of simplifying multiplication via exponents plus years before.
23456*45634 = 1.07039e9 log 23456 = 4.37025; log 45634 = 4.65929; (log 23456) + (log 45634) = 9.02954 10^((log 23456) + (log 45634)) = 10 ^ 9.02954 // same as 23456*45634
As modern usage, for instance, to evaluate another exponent when multiple is known (Which magnitude is 4 times stronger than 8.3 earthquake?):
//_Unknown = log x; 8.3 = log y // x = 10 ^_Unknown; y = 10 ^8.3 //x/y = (10 ^_Unknown)/(10 ^8.3) = log 4 // x/y = _Unknown – 8.3 = 0.6 //_result = 8.9 magnitude _result = (log 4) + 8.3