Which statement correctly characterizes an absolute value function in the form f(x) = |x - h| + k?

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Prepare for the Algebra 1 Honors EOC Test with interactive quizzes and detailed explanations to boost your confidence. Enhance your algebra skills and excel on test day!

Multiple Choice

Which statement correctly characterizes an absolute value function in the form f(x) = |x - h| + k?

An absolute value function like f(x) = |x - h| + k always makes a V-shaped graph that opens upward, with its vertex at the point (h, k) and the axis of symmetry x = h. The reason is that the expression inside the absolute value measures distance from x to h, so as x moves away from h in either direction, the output increases at the same rate. Because |x - h| is defined for every real x, adding k just shifts the whole graph up or down without restricting x, so the domain is all real numbers. It’s not a vertical line, and the domain isn’t restricted to nonreal numbers. So the description of a V-shaped graph with domain all real numbers accurately characterizes this function.

Which statement correctly characterizes an absolute value function in the form f(x) = |x - h| + k?

Prepare for the Algebra 1 Honors EOC Test with interactive quizzes and detailed explanations to boost your confidence. Enhance your algebra skills and excel on test day!

Which statement correctly characterizes an absolute value function in the form f(x) = |x - h| + k?

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