Consider the function f (x) = 22. Which of the following is a sequence of x-values that can be used to approximate 2/19? (1 point)

To determine which sequence of x-values can be used to approximate \( \frac{2}{19} \), we need to compute \( f(x) = 22 \) for each sequence.

However, since \( f(x) = 22 \) is a constant function, it does not change with different x-values. Therefore, none of the x-values will bring any variation in the output of the function, meaning that the function will not yield \( \frac{2}{19} \).

It appears that there may be a misunderstanding in what \( f(x) = 22 \) can achieve. If you meant for \( f(x) \) to approach \( \frac{2}{19} \) through a different function or if there is additional context, please clarify.

However, since none of the sequences will output \( \frac{2}{19} \) based on the information given, we can say that none of the provided sequences will be able to approximate \( \frac{2}{19} \) when evaluated at the constant function \( f(x) = 22 \).

If you meant there's a function where the x-values need to approach \( 22 \) in some capacity to yield \( \frac{2}{19} \), please provide that updated function.