the inverse of x+3
x=y is the identity. It is its own inverse. So the inverse is y=x.
The mulitplication inverse of x is 1/x. This is because (1/x)(x) = 1
There is no such thing.However, the multiplicative inverse of any non zero number, x, is (1/x).The multiplicative inverse has the property that x*(1/x) = 1 = (1/x)*x.
Simply stated, the inverse of a function is a function where the variables are reversed. If you have a function f(x) = y, the inverse is denoted as f-1(y) = x. Examples: y=x+3 Inverse is x=y+3, or y=x-3 y=2x+5 Inverse is x=2y+5, or y=(x-5)/2
No, zero does not have an inverse. The inverse of x is 1/x. x<>0
The inverse of the function y = x is denoted as y = x. The inverse function essentially swaps the roles of x and y, so the inverse of y = x is x = y. In other words, the inverse function of y = x is the function x = y.
the inverse of x+3
XX or X*X, can be written as X squared. The inverse of a function "sort of cancels it out". I know the inverse of a square is the square root. Since we need the inverse of X squared, it's inverse is the square root of X. sqrt(x)
x=y is the identity. It is its own inverse. So the inverse is y=x.
0
The mulitplication inverse of x is 1/x. This is because (1/x)(x) = 1
The additive inverse of x is -(x), so the additive inverse of -45 is -(-45), or 45.
The inverse of the function y = 9x is x/9.
There is no such thing.However, the multiplicative inverse of any non zero number, x, is (1/x).The multiplicative inverse has the property that x*(1/x) = 1 = (1/x)*x.
the inverse of the cube root of x is 2
No, f(x) is not the inverse of f(x).