CAPACITY As a gift, you fill the calendar with packets of chocolate candy. Each packet has a volume of 2 cubic inches. Find the maximum number of CALENDAR 6 in. packets you can fit inside the calendar. Answer: 8 in. 4 in.

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**Capacity Problem** **Question:** As a gift, you fill the calendar with packets of chocolate candy. Each packet has a volume of 2 cubic inches. Find the maximum number of packets you can fit inside the calendar. **Image Explanation:** The image depicts a desk calendar with dimensions labeled. The calendar has a triangular prism shape with a base length of 8 inches, a height of 6 inches, and a triangular depth of 4 inches. **Steps to Solve:** 1. **Calculate the Volume of the Calendar:** - The calendar forms a triangular prism. - The area of the triangular base can be calculated using the formula for the area of a triangle: \[ \text{Area} = \frac{1}{2} \times \text{base length} \times \text{height} \] - Here, the base length is 8 inches and the height is 6 inches: \[ \text{Area} = \frac{1}{2} \times 8 \times 6 = 24 \text{ square inches} \] - The volume of the prism is the area of the triangular base multiplied by the depth (4 inches): \[ \text{Volume} = \text{Area} \times \text{depth} = 24 \times 4 = 96 \text{ cubic inches} \] 2. **Calculate the Number of Packets:** - Each packet has a volume of 2 cubic inches. - To find the maximum number of packets, divide the volume of the calendar by the volume of one packet: \[ \frac{\text{Volume of Calendar}}{\text{Volume of One Packet}} = \frac{96}{2} = 48 \] **Answer:** 48 packets can fit inside the calendar.