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on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time
? Related: Traffic Engineering (Part -1)
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on a road, the speed-density relationship is u 70 - 072. the traffic o...
Distance-Time Plot Diagram:
The distance-time plot diagram for the vehicles moving on the road can be drawn based on the given information. The diagram will have two segments, one before the interruption caused by the flag person and the other after the interruption.
Shock Waves:
The interruption caused by the flag person creates shock waves on the road. These can be identified on the distance-time plot diagram as follows:
- Platoon forming shock wave: This shock wave is created at the point where the vehicles are stopped by the flag person. It is the starting point of the platoon.
- Platoon dissipating shock wave: This shock wave is created when the vehicles are released from their stopped condition and start moving again. It is the starting point of the platoon dissipating.
Speeds of Shock Waves:
The speeds of the shock waves can be determined based on the speed-density relationship of the road. The platoon forming shock wave will have a speed of 70 kmph, while the platoon dissipating shock wave will have a speed of 72 kmph.
Starting and Ending Points of Platoon:
The starting point of the platoon forming shock wave is the point where the vehicles are stopped by the flag person. The starting point of the platoon dissipating shock wave is the point where the vehicles start moving again. The ending points of the platoon can be determined based on the length of the platoon.
Maximum Length of Platoon:
The maximum length of the platoon can be determined by calculating the distance between the starting point of the platoon and the ending point of the platoon.
Time for Platoon to Dissipate:
The time it takes for the platoon to dissipate can be determined by calculating the time it takes for the last vehicle in the platoon to pass a certain point on the road.
Plotting Front and Rear of Platoon:
The front and rear of the platoon can be plotted on the distance-time plot diagram by identifying the points where the platoon starts and ends, and marking the positions of the front and rear of the platoon at different times.
Length of Platoon vs Time:
The length of the platoon can be plotted against time by calculating the length of the platoon at different times based on the positions of the front and rear of the platoon.
The distance-time plot diagram for the vehicles moving on the road can be drawn based on the given information. The diagram will have two segments, one before the interruption caused by the flag person and the other after the interruption.
Shock Waves:
The interruption caused by the flag person creates shock waves on the road. These can be identified on the distance-time plot diagram as follows:
- Platoon forming shock wave: This shock wave is created at the point where the vehicles are stopped by the flag person. It is the starting point of the platoon.
- Platoon dissipating shock wave: This shock wave is created when the vehicles are released from their stopped condition and start moving again. It is the starting point of the platoon dissipating.
Speeds of Shock Waves:
The speeds of the shock waves can be determined based on the speed-density relationship of the road. The platoon forming shock wave will have a speed of 70 kmph, while the platoon dissipating shock wave will have a speed of 72 kmph.
Starting and Ending Points of Platoon:
The starting point of the platoon forming shock wave is the point where the vehicles are stopped by the flag person. The starting point of the platoon dissipating shock wave is the point where the vehicles start moving again. The ending points of the platoon can be determined based on the length of the platoon.
Maximum Length of Platoon:
The maximum length of the platoon can be determined by calculating the distance between the starting point of the platoon and the ending point of the platoon.
Time for Platoon to Dissipate:
The time it takes for the platoon to dissipate can be determined by calculating the time it takes for the last vehicle in the platoon to pass a certain point on the road.
Plotting Front and Rear of Platoon:
The front and rear of the platoon can be plotted on the distance-time plot diagram by identifying the points where the platoon starts and ends, and marking the positions of the front and rear of the platoon at different times.
Length of Platoon vs Time:
The length of the platoon can be plotted against time by calculating the length of the platoon at different times based on the positions of the front and rear of the platoon.
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on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)?
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on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)?.
on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)?.
Solutions for on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? 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 on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? defined & explained in the simplest way possible. Besides giving the explanation of
on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)?, a detailed solution for on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? has been provided alongside types of on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? theory, EduRev gives you an
ample number of questions to practice on a road, the speed-density relationship is u 70 - 072. the traffic on the road sb was moving at a speed of 40 kmph when it was stopped by a flag person (ay, at time movement on the stream was stopped for 5 minutes. at time (y + 5) minutes the vehicles were released from their stopped condition and started moving at 30 kmph. for the above conditions 6) draw a sea schematic diagram for the distance-time plots of the vehicles moving on this road (b) identify all the shock waves on the diagram that are created on this road due to the interruption caused by the flag pera (e) determine the speeds of all the shock waves (d) locate the starting point of the platoon forming shock wave (e) locate the starting point of the platoon dissipating shock wave. and locate the end points of the platoon in (d) and (c) above (g) determine the maximum length of the platoon (b) determine the time it takes for the platoon to dissipate () plot the location of the front of the platoon and the rear of the platoon versus time g) pet the length of the platoon versus time Related: Traffic Engineering (Part -1)? tests, examples and also practice Civil Engineering (CE) tests.
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