Difference between revisions of "Manuals/calci/COTH"
Jump to navigation
Jump to search
Line 6: | Line 6: | ||
*It's also called as Circular function. | *It's also called as Circular function. | ||
*COTH is the reciprocal of TANH function. | *COTH is the reciprocal of TANH function. | ||
− | *<math>COTH(z)=\frac{Cosh(z)}{Sinh(z)}</math> i.e <math>\frac {e^z+e^{-z}} {e^z-e^{-z}}</math> or | + | *<math>COTH(z)=\frac{Cosh(z)}{Sinh(z)}</math> i.e <math>\frac {e^z+e^{-z}} {e^z-e^{-z}}</math> or ICOT(iz).where 'I' is the imaginary unit and <math>i=\sqrt{-1}</math>. |
− | *Also relation between Hyperbolic & Trignometric function is | + | *Also relation between Hyperbolic & Trignometric function is <math>Cot(iz)=-iCoth(z)</math> & <math>Coth(iz)=-iCot(z)</math> |
− | |||
== Examples == | == Examples == |
Revision as of 06:27, 5 November 2013
COTH(z)
- where z is any real number
Description
- This function gives the hyperbolic Cotangent of 'z'.
- It's also called as Circular function.
- COTH is the reciprocal of TANH function.
- i.e or ICOT(iz).where 'I' is the imaginary unit and .
- Also relation between Hyperbolic & Trignometric function is &
Examples
COTH(z)
- z is any real number.
COTH(z) | Value(Radian) |
COTH(1) | 1.3130352854993312 |
COTH(30) | 1 |
COTH(-45) | -1 |