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The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared
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the Civil Engineering (CE) exam syllabus. Information about The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for Civil Engineering (CE) 2024 Exam.
Find important definitions, questions, meanings, examples, exercises and tests below for The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer?.
Solutions for The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? in English & in Hindi are available as part of our courses for Civil Engineering (CE).
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Here you can find the meaning of The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer?, a detailed solution for The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? has been provided alongside types of The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice The queue length (in a number of vehicles) versus time (in seconds) plot for an approach to a signalized intersection with the cycle length of 96 seconds is shown in the figure (not drawn to scale).At time = t = 0, the light has just turned red. The effective green time is 36 seconds, during which vehicles discharge at the saturation flow rate, s (in vph). Vehicles arrive at a uniform rate, v (in vph), throughout the cycle. Which one of the following statements is TRUE?a)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 30 secondsb)s = 1800 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsc)v = 600 vph, and for this cycle, the average stopped delay per vehicle = 45 secondsd)s = 1200 vph, and for this cycle, the average stopped delay per vehicle = 28.125 secondsCorrect answer is option 'B'. Can you explain this answer? tests, examples and also practice Civil Engineering (CE) tests.