The correct answers are:
A. a – 8 ≤ 3 and a – 8 ≥ –3; C. n + 6 ≤ 1 and n + 6 ≥ –1.; and C. {–9, –3}
Step-by-step explanation:
Since absolute value is the distance from 0, when solving an absolute value equation or inequality, we must consider both positive and negative answers.
For the first question, |a-8|≤3, we break this into two inequalities, one with positive 3 at the end and one with negative 3 at the end. However, with an inequality, if we change the sign of the answer, we must flip the inequality sign; this gives us
a-8≤3 and a-8≥-3.
(It is "and" since it was a less than or equal to inequality.)
For the second question, 4-2|n+6|≥2, we start out cancelling the terms outside the absolute value bars. We begin by subtracting 4 from each side:
4-2|n+6|-4≥2-4
-2|n+6|≥-2
Now we divide both sides by -2. Remember when you divide an inequality by a negative number, you flip the symbol:
(-2|n+6|)/-2 ≥ -2/-2
|n+6| ≤ 1
Now we split it into two inequalities. Since it is "less than or equal to," they will be joined by "and":
n+6≤1 and n+6≥-1
For the last question, |k+6|=3, we split it into two equations:
k+6=3 or k+6=-3 (It is "or" because you cannot be equal to two numbers at the same time)
Solving each by subtracting 6 from each side:
k+6-6=3-6 or k+6-6=-3-6
k=-3 or k=-9
This gives us the set {-9, -3} for our solution.