Answer question 3.17 Note- ignore Euler’s tour statement Figure 3-32 See Problem 3-17.Start and stop here3-20 C transportation cost fromtown k to landfill i ($2.00per km per ton)X½= refuse generated in town k(2000 metric tons per year forAlpha, and 3500 metric tonsper year for Beta)y₁ = 1 if the landfill is operated,y = 0 if it is notC₁ = operating cost of landfill i($10.00 per metric ton)b. Solve the objective function fortwo conditions: (1) when thetowns use their own landfillsexclusively and (2) when only thecentral shared facility is used byboth towns.C. Use an optimization softwarepackage to find the optimum(least-cost) solution.3-13. Your client is a small community of5000 people. The community wantsto begin a municipally operated refusecollection and disposal program andasks your advice on the purchase ofa collection vehicle. The communitywants to collect refuse once a week.What would you recommend?3-14. Given the street configuration shownin Figure 3-29, and if all blockfacesADisposalsiteFigure 3-31 See Problem 3-16.B3-15.A community has two landfills. Thecost per ton of disposing of refuse inthe landfills is exactly the same. Thereare three collection routes in town.Write an objective function and con-straint equations for minimizing thetransportation cost (only) from thethree collection routes to the twodisposal sites.3-16. Write an objective function and con-straint equations for minimizing thetransportation cost (only) for thecommunity shown in Figure 3-31.Assume that the cost of disposal isthe same at both disposal sites, andtherefore, the disposal cost can beignored.Problems 123are to be collected, is a unicoursal(Euler's) tour possible? Show yourwork.3-17. On the street map shown inThree collection routesin the communityFigure 3-32, determine first if anEuler's tour is possible. Show why orwhy not. Then show how you wouldroute a truck so as to achieve theleast number of deadheads. You areto collect on both sides of the streetat once.3-18. A community of 25,000 people wantsto initiate public garbage collection.сDisposalsite

Answered: Image /qna-images/answer/f9a01548-36d8-4c98-8fbc-a9a78f5db1ac.jpg

3-17. On the street map shown in Figure 3-32, determine first if an Euler's tour is possible. Show why or why not. Then show how you would route a truck so as to achieve the least number of deadheads. You are to collect on both sides of the street at once.

3-17. On the street map shown in Figure 3-32, determine first if an Euler's tour is possible. Show why or why not. Then show how you would route a truck so as to achieve the least number of deadheads. You are to collect on both sides of the street at once.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

Answer question 3.17 Note- ignore Euler’s tour statement

Figure 3-32 See Problem 3-17.
Start and stop here
3-20

C transportation cost from
town k to landfill i ($2.00
per km per ton)
X½
= refuse generated in town k
(2000 metric tons per year for
Alpha, and 3500 metric tons
per year for Beta)
y₁ = 1 if the landfill is operated,
y = 0 if it is not
C₁ = operating cost of landfill i
($10.00 per metric ton)
b. Solve the objective function for
two conditions: (1) when the
towns use their own landfills
exclusively and (2) when only the
central shared facility is used by
both towns.
C. Use an optimization software
package to find the optimum
(least-cost) solution.
3-13. Your client is a small community of
5000 people. The community wants
to begin a municipally operated refuse
collection and disposal program and
asks your advice on the purchase of
a collection vehicle. The community
wants to collect refuse once a week.
What would you recommend?
3-14. Given the street configuration shown
in Figure 3-29, and if all blockfaces
A
Disposal
site
Figure 3-31 See Problem 3-16.
B
3-15.
A community has two landfills. The
cost per ton of disposing of refuse in
the landfills is exactly the same. There
are three collection routes in town.
Write an objective function and con-
straint equations for minimizing the
transportation cost (only) from the
three collection routes to the two
disposal sites.
3-16. Write an objective function and con-
straint equations for minimizing the
transportation cost (only) for the
community shown in Figure 3-31.
Assume that the cost of disposal is
the same at both disposal sites, and
therefore, the disposal cost can be
ignored.
Problems 123
are to be collected, is a unicoursal
(Euler's) tour possible? Show your
work.
3-17. On the street map shown in
Three collection routes
in the community
Figure 3-32, determine first if an
Euler's tour is possible. Show why or
why not. Then show how you would
route a truck so as to achieve the
least number of deadheads. You are
to collect on both sides of the street
at once.
3-18. A community of 25,000 people wants
to initiate public garbage collection.
с
Disposal
site

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Step 1: Introducing given data

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Step 3: Possibility of Eulers tour

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Step 4: Route to achieve least deadheads

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