A rectangular building is being designed to minimize heat loss. The east and west walls lose heat at a rate of 10 unit/m^2 per day, the north and south walls at a rate of 8 units/m^2 per day, the floor at a rate of 1 unit/m^2 per day, and the roof at a rate of 5 unit/m^2 per day. Each wall must be at least 30 m long, the height must be at least 4 m, and the volume must be exactly 4000m^3. a. Find and sketch the domain of the heat loss as a function of the lengths of the sides. b. Find the dimensions that minimize heat loss. (Check both the critical points and the points on the boundary of the domain.)" c. Could you design a building with even less heat loss if the restrictions on the lengths of the walls were removed?
A rectangular building is being designed to minimize heat loss. The east and west walls lose heat at a rate of 10 unit/m^2 per day, the north and south walls at a rate of 8 units/m^2 per day, the floor at a rate of 1 unit/m^2 per day, and the roof at a rate of 5 unit/m^2 per day. Each wall must be at least 30 m long, the height must be at least 4 m, and the volume must be exactly 4000m^3. a. Find and sketch the domain of the heat loss as a function of the lengths of the sides. b. Find the dimensions that minimize heat loss. (Check both the critical points and the points on the boundary of the domain.)" c. Could you design a building with even less heat loss if the restrictions on the lengths of the walls were removed?
Calculus: Early Transcendentals
8th Edition
ISBN:9781285741550
Author:James Stewart
Publisher:James Stewart
Chapter1: Functions And Models
Section: Chapter Questions
Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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![A rectangular building is being designed to
minimize heat loss. The east and west walls
lose heat at a rate of 10 unit/m^2 per day,
the north and south walls at a rate of 8
units/m^2 per day, the floor at a rate of 1
unit/m^2 per day, and the roof at a rate of 5
unit/m^2 per day. Each wall must be at
least 30 m long, the height must be at least
4 m, and the volume must be exactly
4000m^3.
a. Find and sketch the domain of the heat
loss as a function of the lengths of the
sides.
b. Find the dimensions that minimize heat
loss. (Check both the critical points and the
points on the boundary of the domain.)"
c. Could you design a building with even
less heat loss if the restrictions on the
lengths of the walls were removed?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1bd80ed7-b772-4336-970c-bd063274f310%2F9cb37216-4701-4d84-a2b5-a73cff04b5c2%2Ffe3nmg1_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A rectangular building is being designed to
minimize heat loss. The east and west walls
lose heat at a rate of 10 unit/m^2 per day,
the north and south walls at a rate of 8
units/m^2 per day, the floor at a rate of 1
unit/m^2 per day, and the roof at a rate of 5
unit/m^2 per day. Each wall must be at
least 30 m long, the height must be at least
4 m, and the volume must be exactly
4000m^3.
a. Find and sketch the domain of the heat
loss as a function of the lengths of the
sides.
b. Find the dimensions that minimize heat
loss. (Check both the critical points and the
points on the boundary of the domain.)"
c. Could you design a building with even
less heat loss if the restrictions on the
lengths of the walls were removed?
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