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Question
Tamper-proof tetra-packed milk guarantees both freshness and security. This milk ensures uncompromised quality, preserving the nutritional values within and making it a reliable choice for health-conscious individuals.
500 ml milk is packed in a cuboidal container of dimensions 15 cm × 8 cm × 5 cm. These milk packets are then packed in cuboidal cartons of dimensions 30 cm × 32 cm × 15 cm.
Based on the above-given information, answer the following questions:
i. Find the volume of the cuboidal carton. (1)
ii. a. Find the total surface area of the milk packet. (2)
OR
b. How many milk packets can be filled in a carton? (2)
iii. How much milk can the cup (as shown in the figure) hold? (1)
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Solution
(i) Volume of the cuboidal carton
The formula for the volume of a cuboid is:
V = length × breadth × height
length = 30 cm, breadth = 32 cm, height = 15 cm
V = 30 × 32 × 15
V = 14400 cm3
(ii) a. Total Surface Area of the Milk Packet
TSA = 2(lb + bh + hl)
l = 15 cm, b = 8 cm, h = 5 cm
TSA = 2 × (15 × 8 + 8 × 5 + 5 × 15)
TSA = 2 × (120 + 40 + 75)
TSA = 2 × 235
TSA = 470 cm2
(ii) b. Number of Milk Packets in the Carton
Step 1: Volume of a single milk packet
V = l × b × h
V = 15 × 8 × 5
V = 600 cm3
Step 2: Number of packets
Number of packets = `"Volume of carton"/"Volume of one packet"`
= `14400/600`
= 24
(iii) Volume of the Cup
The given cup in the image is cylindrical. The volume of a cylinder is given by:
V = πr2h
From the image:
- Radius r = 5
- Height h is not provided in the image. To calculate the exact volume, we need the height of the cup.
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