Difference between revisions of "Manuals/calci/IMLOG2"
Jump to navigation
Jump to search
| Line 14: | Line 14: | ||
==Examples== | ==Examples== | ||
| − | #=IMLOG2("2+3i")=1.85021985921295+1.41787163085485i | + | #=IMLOG2("2+3i") = 1.85021985921295+1.41787163085485i |
| − | #=IMLOG2("5-6i")=2.96536866900967-1.26388460522614i | + | #=IMLOG2("5-6i") = 2.96536866900967-1.26388460522614i |
| − | #=IMLOG2("15")=3.90689059590921 | + | #=IMLOG2("15") = 3.90689059590921 |
| − | #=IMLOG2("11i")=3.45943161890355+2.26618007108801i | + | #=IMLOG2("11i") = 3.45943161890355+2.26618007108801i |
| − | #=IMLOG2("0")=NULL | + | #=IMLOG2("0") = NULL |
| − | |||
| − | |||
==See Also== | ==See Also== | ||
Revision as of 06:42, 16 December 2013
IMLOG2(z)
- is the complex number is of the form
is the complex number is of the form 
Description
- This function gives the binary logarithm of a complex number.
- , where is the complex number in the form of . i.e. & are the real numbers.
- imaginary unit ..
- Binary logarithm is the inverse function of Failed to parse (syntax error): {\displaystyle n ↦ 2n} .
- Log base 2 is called Binary logarithm.
- To find the Binary logarithm of a complex number we have to calculate from the natural logarithm.
- So .
- We can use COMPLEX function to convert real and imaginary number in to a complex number.
, where 
& 
are the real numbers.
imaginary unit .
.
.Examples
- =IMLOG2("2+3i") = 1.85021985921295+1.41787163085485i
- =IMLOG2("5-6i") = 2.96536866900967-1.26388460522614i
- =IMLOG2("15") = 3.90689059590921
- =IMLOG2("11i") = 3.45943161890355+2.26618007108801i
- =IMLOG2("0") = NULL