# Add-in Functions, List of Analysis Functions Part Two

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Insert - Function - Category Add-In

## IMCOS

Returns the cosine of a complex number.

## IMCOSH

Returns the hyperbolic cosine of a complex number.

## IMCOT

Returns the cotangent of a complex number.

## IMCSC

Returns the cosecant of a complex number.

## IMCSCH

Returns the hyperbolic cosecant of a complex number.

## IMSEC

Returns the secant of a complex number.

## IMSECH

Returns the hyperbolic secant of a complex number.

## IMSIN

Returns the sine of a complex number.

## IMSINH

Returns the hyperbolic sine of a complex number.

## IMTAN

Returns the tangent of a complex number.

## CONVERT

Converts a value from one unit of measurement to the corresponding value in another unit of measurement.

## COMPLEX

The result is a complex number which is returned from a real coefficient and an imaginary coefficient.

#### Syntax

COMPLEX(RealNum; INum [; Suffix])

RealNum is the real coefficient of the complex number.

INum is the imaginary coefficient of the complex number.

Suffix is a list of options, "i" or "j".

#### Example

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## FACTDOUBLE

Returns the double factorial of a number.

#### Syntax

Numri i faqes

Returns Number !!, the double factorial of Number, where Number is an integer greater than or equal to zero.

For even numbers FACTDOUBLE(n) returns:

2*4*6*8* ... *n

For odd numbers FACTDOUBLE(n) returns:

1*3*5*7* ... *n

FACTDOUBLE(0) returns 1 by definition.

#### Example

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## IMABS

The result is the absolute value of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMAGINARY

The result is the imaginary coefficient of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMARGUMENT

The result is the argument (the phi angle) of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMCONJUGATE

The result is the conjugated complex complement to a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMDIV

The result is the division of two complex numbers.

#### Syntax

IMDIV("Numerator"; "Denominator")

Numerator, Denominator are complex numbers that are entered in the form "x+yi" or "x+yj".

#### Example

=IMDIV("-238+240i";"10+24i") returns 5+12i.

## IMEXP

The result is the power of e and the complex number. The constant e has a value of approximately 2.71828182845904.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

=IMEXP("1+j") returns 1.47+2.29j (rounded).

## IMLN

The result is the natural logarithm (to the base e) of a complex number. The constant e has a value of approximately 2.71828182845904.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

=IMLN("1+j") returns 0.35+0.79j (rounded).

## IMLOG10

The result is the common logarithm (to the base 10) of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

=IMLOG10("1+j") returns 0.15+0.34j (rounded).

## IMLOG2

The result is the binary logarithm of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

=IMLOG2("1+j") returns 0.50+1.13j (rounded).

## IMPOWER

The result is the ComplexNumber raised to the power of Number.

#### Syntax

Zona e numrit tĂ« sllajdit

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

Number is the exponent.

#### Example

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## IMREAL

The result is the real coefficient of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMSQRT

The result is the square root of a complex number.

#### Syntax

Pjesa imagjinare

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMSUB

The result is the subtraction of two complex numbers.

#### Syntax

IMSUB("ComplexNumber1"; "ComplexNumber2")

ComplexNumber is a complex number that is entered in the form "x+yi" or "x+yj".

#### Example

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## IMSUM

The result is the sum of a set of complex numbers.

#### Syntax

IMSUM(Complex 1 [; Complex 2 [; â€¦ [; Complex 255]]])

Complex 1, Complex 2, â€¦ ,Complex 255 are complex numbers, references to cells or to cell ranges of complex numbers. Complex numbers are entered in the form "x+yi" or "x+yj".

#### Example

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Kthen vitin e njĂ« vlere tĂ« datĂ«s si njĂ« numĂ«r tĂ« plotĂ«.

## OCT2BIN

The result is the string representing the number in binary (base-2) form for the octal number string entered.

#### Syntax

OCT2BIN(Number [; Places])

Number is a string that represents an octal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.

Numri i vendeve deri nĂ« tĂ« cilin numri do tĂ« cungohet.

#### Example

=OCT2BIN("3";3) returns "011".

Kthen vitin e njĂ« vlere tĂ« datĂ«s si njĂ« numĂ«r tĂ« plotĂ«.

## OCT2DEC

The result is the number for the octal number string entered.

#### Syntax

OCT2DEC(Number)

Number is a string that represents an octal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.

#### Example

=OCT2DEC("144") returns 100.

Kthen vitin e njĂ« vlere tĂ« datĂ«s si njĂ« numĂ«r tĂ« plotĂ«.

## OCT2HEX

The result is the string representing the number in hexadecimal form for the octal number string entered.

#### Syntax

OCT2HEX(Number [; Places])

Number is a string that represents an octal number. It can have a maximum of 10 places. The most significant bit is the sign bit, the following bits return the value. Negative numbers are entered as two's complement.

Numri i vendeve deri nĂ« tĂ« cilin numri do tĂ« cungohet.

#### Example

=OCT2HEX("144";4) returns "0064".

## SUMPRODUCT

The result is the product of a set of complex numbers.

#### Syntax

IMPRODUCT(Complex 1 [; Complex 2 [; â€¦ [; Complex 255]]])

Complex 1, Complex 2, â€¦ ,Complex 255 are complex numbers, references to cells or to cell ranges of complex numbers. Complex numbers are entered in the form "x+yi" or "x+yj".

#### Example

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