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Getting sine and hyperbolic sine in Julia – sin(), sinh() and sind() Methods
  • Last Updated : 26 Mar, 2020

The sin() is an inbuilt function in julia which is used to calculate sine of the specified radian values.

Syntax: sin(x)

Parameters:

  • x: Specified radian values.

Returns: It returns the calculated sine of the specified radian values.

Example:






# Julia program to illustrate 
# the use of sin() method
  
# Getting sine of the specified
# radian values.
println(sin(0))
println(sin(30))
println(sin(90))
println(sin(44))

Output:

0.0
-0.9880316240928618
0.8939966636005579
0.017701925105413577

The sinh() is an inbuilt function in julia which is used to calculate hyperbolic sine of the specified values.

Syntax: sinh(x)

Parameters:

  • x: Specified values.

Returns: It returns the calculated hyperbolic sine of the specified values.

Example:




# Julia program to illustrate 
# the use of sinh() method
  
# Getting sine of the specified values.
println(sinh(0))
println(sinh(30))
println(sinh(90))
println(sinh(45))

Output:

0.0
5.343237290762231e12
6.102016471589204e38
1.7467135528742547e19

The sind() is an inbuilt function in julia which is used to calculate sine of the specified value in degrees.

Syntax: sind(x)

Parameters:

  • x: Specified value in degrees.

Returns: It returns the calculated sine of the specified value in degrees.

Example:




# Julia program to illustrate 
# the use of sind() method
  
# Getting sine of the specified value 
# in degree
println(sind(0))
println(sind(30))
println(sind(90))
println(sind(45))

Output:

0.0
0.5
1.0
0.7071067811865476

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