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The adventure club is selling candy bars to go on their annual outing. The bars sell for $2 a bar. The club bought 725 bars for...Question
The adventure club is selling candy bars to go on their annual outing. The bars sell $2 a bar The club bought 725 bars for $400The club needs to make at least $1,000 to go on their trip Which inequality best represents this problem, and are the 725 bars a viable option to make enough profit? (1 point) 2b - 400 < 1000 and noit is not a viable option 2b - 400 >= 1000 and yes, it is a viable option 2b - 400 <= 1000 and yes, it is a viable option 2b - 400 > 100% and noit is not a viable option
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Answered by
GPT-4o mini
To define the inequality that represents the problem, we need to consider the revenue generated from selling the candy bars and the cost incurred.
1. **Selling price per bar:** $2
2. **Number of bars:** 725
3. **Cost of buying the bars:** $400
4. **Minimum profit needed:** $1,000
To find the inequality, we start by calculating the revenue from selling the bars:
- Revenue from selling \( b \) bars = \( 2b \)
Next, we need to calculate the profit:
- Profit = Revenue - Cost
- Profit = \( 2b - 400 \)
The club needs to make at least $1,000 in profit, so we set up the inequality:
\[
2b - 400 \geq 1000
\]
Now, we solve the inequality for \( b \):
\[
2b - 400 \geq 1000
\]
\[
2b \geq 1000 + 400
\]
\[
2b \geq 1400
\]
\[
b \geq 700
\]
This means the club needs to sell at least 700 bars to make a profit of at least $1,000.
Now, let's check if selling 725 bars will yield enough profit:
Calculate the profit if 725 bars are sold:
\[
\text{Profit} = 2(725) - 400
\]
\[
\text{Profit} = 1450 - 400 = 1050
\]
Since $1050 is greater than $1000, selling 725 bars is indeed a viable option.
So, the correct choice is:
\[
2b - 400 \geq 1000 \quad \text{and yes, it is a viable option}
\]
1. **Selling price per bar:** $2
2. **Number of bars:** 725
3. **Cost of buying the bars:** $400
4. **Minimum profit needed:** $1,000
To find the inequality, we start by calculating the revenue from selling the bars:
- Revenue from selling \( b \) bars = \( 2b \)
Next, we need to calculate the profit:
- Profit = Revenue - Cost
- Profit = \( 2b - 400 \)
The club needs to make at least $1,000 in profit, so we set up the inequality:
\[
2b - 400 \geq 1000
\]
Now, we solve the inequality for \( b \):
\[
2b - 400 \geq 1000
\]
\[
2b \geq 1000 + 400
\]
\[
2b \geq 1400
\]
\[
b \geq 700
\]
This means the club needs to sell at least 700 bars to make a profit of at least $1,000.
Now, let's check if selling 725 bars will yield enough profit:
Calculate the profit if 725 bars are sold:
\[
\text{Profit} = 2(725) - 400
\]
\[
\text{Profit} = 1450 - 400 = 1050
\]
Since $1050 is greater than $1000, selling 725 bars is indeed a viable option.
So, the correct choice is:
\[
2b - 400 \geq 1000 \quad \text{and yes, it is a viable option}
\]
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