4. A restaurant is being built on the side of a mountain, the plans are shown below.(a) The vertical curved wall of the restaurant is to be built of glass. What will be the surface areaof this wall?(b) To be large enough to be profitable, the consulting engineer informs the developer that thevolume of the interior must exceed TR¹/2. For what R does the proposed structure satisfy thisrequirement?(c) During a typical summer day, the environs of the restaurant are subject to a tempertaure fieldgiven byT(x, y, z) = 3x² + (y− R)² + 16z².A heat flux density V = -kVT (k is a constant depending on the grade of the insulation tobe used) through all sides of the restaurant (including the top and the contact with the hill)produces a heat flux. What is the total heat flux? (Your answer will depend on R and k.)x² + y² +z =4R²2Rside viewRrestaurantyx² + y²-4R²2Rtop viewx² + (y-R)² = R²Ry

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restaurant is being built on the side of a mountain, the plans are shown below. (a) The vertical curved wall of the restaurant is to be built of glass. What will be the surface area of this wall? h) To be large enough to be profitable the consulting engineer informs the developer that the

restaurant is being built on the side of a mountain, the plans are shown below. (a) The vertical curved wall of the restaurant is to be built of glass. What will be the surface area of this wall? h) To be large enough to be profitable the consulting engineer informs the developer that the

Mathematics For Machine Technology

8th Edition

ISBN:9781337798310

Author:Peterson, John.

Publisher:Peterson, John.

Chapter59: Areas Of Rectangles, Parallelograms, And Trapezoids

Section: Chapter Questions

Problem 79A

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Question

4. A restaurant is being built on the side of a mountain, the plans are shown below.
(a) The vertical curved wall of the restaurant is to be built of glass. What will be the surface area
of this wall?
(b) To be large enough to be profitable, the consulting engineer informs the developer that the
volume of the interior must exceed TR¹/2. For what R does the proposed structure satisfy this
requirement?
(c) During a typical summer day, the environs of the restaurant are subject to a tempertaure field
given by
T(x, y, z) = 3x² + (y− R)² + 16z².
A heat flux density V = -kVT (k is a constant depending on the grade of the insulation to
be used) through all sides of the restaurant (including the top and the contact with the hill)
produces a heat flux. What is the total heat flux? (Your answer will depend on R and k.)
x² + y² +z =4R²
2R
side view
R
restaurant
y
x² + y²-4R²
2R
top view
x² + (y-R)² = R²
R
y

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