First determine whether the equation is a direct variation or a regular equation.
1. Direct Variations in inverse can be solved in the following.
y=6x switch y with x ---> x=6y solve for y
2.Regular equations in inverse can be solved in the following.
y=-2x-10 switch y with x----> x=-2y-10 add 10---> x+10=2y solve for y
The inverse of addition is subtraction.
An inverse is NOT called a circular function. Only inverse functions that are circular functions are called circular functions for obvious reasons.
inverse function
Inverse functions? (not sure what you mean)
Gauss Elimination
The inverse of addition is subtraction.
An inverse is NOT called a circular function. Only inverse functions that are circular functions are called circular functions for obvious reasons.
These are the for inverse operations:Multiplications inverse is divisionDivisions inverse is multiplicationAdditions inverse is subtractionSubtractions inverse is addition
No.Some functions have no inverse.
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.
inverse function
These are the for inverse operations:Multiplications inverse is divisionDivisions inverse is multiplicationAdditions inverse is subtractionSubtractions inverse is addition
Q=-200+50P inverse supply function
Inverse functions? (not sure what you mean)
One is the inverse of the other, just like the arc-sine is the inverse of the sine, or division is the inverse of multiplication.
If f(x)=y, then the inverse function solves for y when x=f(y). You may have to restrict the domain for the inverse function to be a function. Use this concept when finding the inverse of hyperbolic functions.
Gauss Elimination