Let the function

*be defined as the set of*

**y=f(x)**

**X**and have a range

**Y.**If the each

*is the element of*

**y***there exists a single value of*

**Y***such that*

**x**

**f(x)=y.**then this correspondence defines a certain function

**x=g(y)**called inverse with respect to given function

**y=f(x).**The sufficient condition for existence of an inverse is a strict monotony of the original function

**y=f(x).**If the function increases (decreases), then the inverse function is also decreases (increases).

Graph of the inverse function

*coincides with that of the function*

**x=g(y)***if the independent variable is marked off along the*

**y=f(x)***. If the independent variable is laid off along the*

**y-axis***i.e. if the inverse function is written in the form*

**x-axis***, then the graph of the inverse function will be symmetric to that of the function*

**y=g(x)***with respect to the bisector of the first and third quadrant.*

**y=f(x)**
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