1. The travel time functions (seconds) for link 1 is t₁ = 2 + 2x₁, for link 2 is t₂ = 4 + 4x₂, and for link 3 is t3 = 3 + x3. The total travel demand for this network is 400 trips from node 1 to node 3. Assuming User Equilibrium, determine the total system travel time in vehicle-hour from node 1 to node 3 and the number of trips per route.
1. The travel time functions (seconds) for link 1 is t₁ = 2 + 2x₁, for link 2 is t₂ = 4 + 4x₂, and for link 3 is t3 = 3 + x3. The total travel demand for this network is 400 trips from node 1 to node 3. Assuming User Equilibrium, determine the total system travel time in vehicle-hour from node 1 to node 3 and the number of trips per route.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Question
![= 4 + 4x₂,
=
1. The travel time functions (seconds) for link 1 is t₁ 2 + 2x₁, for link 2 is t2
and for link 3 is t3 = 3 + x3. The total travel demand for this network is 400 trips from
node 1 to node 3. Assuming User Equilibrium, determine the total system travel time in
vehicle-hour from node 1 to node 3 and the number of trips per route.
1
2
2
3
3](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F57584f68-8354-478d-805f-e7229aa75bb6%2Fcdce1bd3-3c12-40f3-b751-35f943f29617%2Fufeucn_processed.png&w=3840&q=75)
Transcribed Image Text:= 4 + 4x₂,
=
1. The travel time functions (seconds) for link 1 is t₁ 2 + 2x₁, for link 2 is t2
and for link 3 is t3 = 3 + x3. The total travel demand for this network is 400 trips from
node 1 to node 3. Assuming User Equilibrium, determine the total system travel time in
vehicle-hour from node 1 to node 3 and the number of trips per route.
1
2
2
3
3
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