The domain of a function is the set of all possible inputs that a function can take. In order to find the domain of a function, such as the function *f(x)*, one must use an inequality. The inequality used to find the domain of *f(x)* depends on the expression, or Mc016-1.Jpg, that is being used in the function.

For example, if Mc016-1.Jpg is a constant, then the inequality used to find the domain of *f(x)* is *x ≥ 0*. This means that the domain of *f(x)* includes all real numbers greater than or equal to zero.

Alternatively, if Mc016-1.Jpg is a linear expression, then the inequality used to find the domain of *f(x)* is *x ≥ a*, where *a* is the smallest real number value of the linear expression. This means that the domain of *f(x)* includes all real numbers greater than or equal to the value of *a*.

Similarly, if Mc016-1.Jpg is a nonlinear expression, then the inequality used to find the domain of *f(x)* is *x ≥ b*, where *b* is the smallest real number value of the nonlinear expression. This means that the domain of *f(x)* includes all real numbers greater than or equal to the value of *b*.

It is important to note that the domain of a function is always specified by an inequality. Depending on the expression used in the function, the inequality used to find its domain may be different. Therefore, in order to find the domain of *f(x)* when Mc016-1.Jpg is used in the function, one must determine the expression of Mc016-1.Jpg and use the corresponding inequality to find the domain.