Getting inverse cosine and inverse hyperbolic cosine in Julia – acos(), acosh() and acosd() Methods
The acos()
is an inbuilt function in julia which is used to calculate inverse cosine of the specified value and output is in radians.
Syntax: acos(x)
Parameters:
- x: Specified values.
Returns: It returns the calculated inverse cosine of the specified value and output is in radians.
Example:
# Julia program to illustrate # the use of acos() method # Getting inverse cosine of the specified # values and output is in radians. println(acos( 0 )) println(acos( - 0.444 )) println(acos( 0.7774 )) println(acos( 1 )) |
Output:
1.5707963267948966 2.0308542405657466 0.6802746363624282 0.0
The acosh()
is an inbuilt function in julia which is used to calculate inverse hyperbolic cosine of the specified value.
Syntax: acosh(x)
Parameters:
- x: Specified values.
Returns: It returns the calculated inverse hyperbolic cosine of the specified value.
Example:
# Julia program to illustrate # the use of acosh() method # Getting inverse hyperbolic cosine of the # specified values. println(acosh( 2 )) println(acosh( 10 )) println(acosh( 74 )) println(acosh( 45 )) |
Output:
1.3169578969248166 2.993222846126381 4.997166616875528 4.499686190671499
The acosd()
is an inbuilt function in julia which is used to calculate inverse cosine of the specified value and output is in degrees.
Syntax: acosd(x)
Parameters:
- x: Specified values.
Returns: It returns the calculated inverse cosine of the specified value and output is in degrees.
Example:
# Julia program to illustrate # the use of acosd() method # Getting inverse cosine of the specified # values and output is in degrees. println(acosd( 0 )) println(acosd( - 0.444 )) println(acosd( 0.7774 )) println(acosd( 1 )) |
Output:
90.0 116.35937679066326 38.976865573363945 0.0
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