Question
Which ordered pairs are solutions to the inequality y−4x≥−5?
Select each correct answer.
Responses
(−2, 1)
begin ordered pair negative 2 comma 1 end ordered pair
(4, 0)
begin ordered pair 4 comma 0 end ordered pair
(−4, 2)
begin ordered pair negative 4 comma 2 end ordered pair
(1, −1)
begin ordered pair 1 comma negative 1 end ordered pair
(5, −2)
Select each correct answer.
Responses
(−2, 1)
begin ordered pair negative 2 comma 1 end ordered pair
(4, 0)
begin ordered pair 4 comma 0 end ordered pair
(−4, 2)
begin ordered pair negative 4 comma 2 end ordered pair
(1, −1)
begin ordered pair 1 comma negative 1 end ordered pair
(5, −2)
Answers
GPT-4o mini
To determine which ordered pairs are solutions to the inequality \( y - 4x \ge -5 \), we can rearrange the inequality into a more convenient form:
\[
y \ge 4x - 5
\]
Next, we will substitute each ordered pair \((x, y)\) into the inequality to check if it holds true.
1. For \((-2, 1)\):
\[
y = 1, \quad 4x - 5 = 4(-2) - 5 = -8 - 5 = -13
\]
Since \(1 \ge -13\) (true), \((-2, 1)\) is a solution.
2. For \((4, 0)\):
\[
y = 0, \quad 4x - 5 = 4(4) - 5 = 16 - 5 = 11
\]
Since \(0 \ge 11\) (false), \((4, 0)\) is not a solution.
3. For \((-4, 2)\):
\[
y = 2, \quad 4x - 5 = 4(-4) - 5 = -16 - 5 = -21
\]
Since \(2 \ge -21\) (true), \((-4, 2)\) is a solution.
4. For \((1, -1)\):
\[
y = -1, \quad 4x - 5 = 4(1) - 5 = 4 - 5 = -1
\]
Since \(-1 \ge -1\) (true), \((1, -1)\) is a solution.
5. For \((5, -2)\):
\[
y = -2, \quad 4x - 5 = 4(5) - 5 = 20 - 5 = 15
\]
Since \(-2 \ge 15\) (false), \((5, -2)\) is not a solution.
Thus, the ordered pairs that are solutions to the inequality \( y - 4x \ge -5 \) are:
- \((-2, 1)\)
- \((-4, 2)\)
- \((1, -1)\)
\[
y \ge 4x - 5
\]
Next, we will substitute each ordered pair \((x, y)\) into the inequality to check if it holds true.
1. For \((-2, 1)\):
\[
y = 1, \quad 4x - 5 = 4(-2) - 5 = -8 - 5 = -13
\]
Since \(1 \ge -13\) (true), \((-2, 1)\) is a solution.
2. For \((4, 0)\):
\[
y = 0, \quad 4x - 5 = 4(4) - 5 = 16 - 5 = 11
\]
Since \(0 \ge 11\) (false), \((4, 0)\) is not a solution.
3. For \((-4, 2)\):
\[
y = 2, \quad 4x - 5 = 4(-4) - 5 = -16 - 5 = -21
\]
Since \(2 \ge -21\) (true), \((-4, 2)\) is a solution.
4. For \((1, -1)\):
\[
y = -1, \quad 4x - 5 = 4(1) - 5 = 4 - 5 = -1
\]
Since \(-1 \ge -1\) (true), \((1, -1)\) is a solution.
5. For \((5, -2)\):
\[
y = -2, \quad 4x - 5 = 4(5) - 5 = 20 - 5 = 15
\]
Since \(-2 \ge 15\) (false), \((5, -2)\) is not a solution.
Thus, the ordered pairs that are solutions to the inequality \( y - 4x \ge -5 \) are:
- \((-2, 1)\)
- \((-4, 2)\)
- \((1, -1)\)