Pregunta
Solve the compound inequality. \[ 4 w+6 \geq 18 \text { and }-2 w<-12 \] Write the solution in interval notation: If there is no solution, enter \( \varnothing \). \[ \begin{array}{ll}\square & \infty\end{array} \]
Ask by Maxwell Conner. in the United States
Feb 27,2025
Solución de inteligencia artificial de Upstudy
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The solution is \( w > 6 \), which in interval notation is \( (6, \infty) \).
Solución
We are given the compound inequality:
4w + 6 ≥ 18 and -2w < -12
Step 1: Solve the first inequality.
4w + 6 ≥ 18
Subtract 6 from both sides:
4w ≥ 12
Divide both sides by 4:
w ≥ 3
Step 2: Solve the second inequality.
-2w < -12
Divide both sides by -2. Remember to reverse the inequality sign when dividing by a negative number:
w > 6
Step 3: Find the intersection of the solutions.
The first inequality gives w ≥ 3 and the second gives w > 6. The intersection of these two sets is the set of all w that satisfy w > 6.
Thus, the solution in interval notation is:
(6, ∞)
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Simplifique esta solución The Deep Dive
To solve the compound inequality \( 4w + 6 \geq 18 \) and \(-2w < -12\), we can approach each part separately. First, solve \( 4w + 6 \geq 18 \): 1. Subtract 6 from both sides: \( 4w \geq 12 \) 2. Divide both sides by 4: \( w \geq 3 \) Next, solve \(-2w < -12\): 1. Divide both sides by -2, remembering to reverse the inequality sign: \( w > 6 \) Now, we need to combine the results. The solution to both inequalities must satisfy both conditions: From \( w \geq 3 \) and \( w > 6 \), the more restrictive condition is \( w > 6 \). In interval notation, the solution is: \[ (6, \infty) \]
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