The inverse of the inverse is the original function, so that the product of the two functions is equivalent to the identity function on the appropriate domain. The domain of a function is the range of the inverse function. The range of a function is the domain of the inverse function.
No. The inverse of an exponential function is a logarithmic function.
-6 is a number, not a function and so there is not an inverse function.
The inverse of the cubic function is the cube root function.
The original function's RANGE becomes the inverse function's domain.
X squared is not an inverse function; it is a quadratic function.
The inverse function means the opposite calculation. The inverse function of "add 6" would be "subtract 6".
No. A simple example of this is y = x2; the inverse is x = y2, which is not a function.
The inverse of the cosine is the secant.
It is the logarithmic function.
No, an function only contains a certain amount of vertices; leaving a logarithmic function to NOT be the inverse of an exponential function.
No.Some functions have no inverse.
The opposite of another function - if you apply a function and then its inverse, you should get the original number back. For example, the inverse of squaring a positive number is taking the square root.
Inverse of a function exists only if it is a Bijection. Bijection=Injection(one to one)+surjection (onto) function.
The identity function.
The inverse function of multiplication is division.
The inverse of the function y = 9x is x/9.
An inverse is NOT called a circular function. Only inverse functions that are circular functions are called circular functions for obvious reasons.
Well, it would be hard to write an inverse function of -4, since -4 is not a function in the first place.
Given a function, one can "switch" the variables x and y and then solve for y afterwards to determine the inverse function.