Studies have shown that the traffic flow on a two-lane road adjacent to a school can bedescribed by the Greenshields model. A length of 0.5 mi adjacent to a school isdescribed as a school zone (see Figure 6.19) and operates for a period of 30 min justbefore the start of school and just after the close of school. The posted speed limit forthe school zone during its operation is 20 mi/h. Data collected at the site when theschool zone is not in operation show that the jam density and mean free speed for eachlane are 118 veh/mi and 63 mi/h. If the demand flow on the highway at the times ofoperation of the school zone is 95% of the capacity of the highway, determine:6-13(a) The speeds of the shock waves created by the operation of the school zone(b) The number of vehicles affected by the school zone operation(c) The time the queue takes for it to dissipate after the operation of the school zone

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Answered: speeds of the shock waves created by…

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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pts) In a section of highway 200ft long, three vehicle A, B, and C are traveling at constant speeds of 25 ft/sec., 40 ft/sec. and 20 ft/sec. respectively, and are positioned as shown. Determine; the time mean speed (U) at screen line NN, the space mean speed (U), the density (D), the volume (Q) of the flow, the spacing (S), and the average headway (h).
Problem 3: A public school holds its flag ceremonies every Monday from 7:00 AM to 7:15 AM. During the singing of the national anthem, which lasts for about 2 minutes, all drivers stop in front of the school as an act of respect. Determine the characteristics of the shock waves formed by this activity. Estimate the time required for the traffic flow to be back to normal. q= 1800 vph; v = 30 kph 300 m k = 80 veh/km; v = 0 kph || k = 40 veh/km; q = 1000 vph→ school
Two cars,on a level surface, are approaching each other from the opposite directions at a speed of 120 kph and 90 kph respectively. The reaction time is 2.0 seconds. Compute the minimum sight distance required to avoid a head-on collision of the two cars. Use 2011 AASHTO formula.

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speeds of the shock waves created by the operation of the school zone number of vehicles affected by the school zone operation time the queue takes for it to dissipate after the operation of the school zone