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1. The design speed of a multilane highway is 60 mi/h. Determine (a) the minimum stop-ping sight distance that should be provided for a level roadway, and (b) the minimum stopping sight distance that should be provided for a roadway with a maximum grade of 7 percent. Note: The term a g in the appropriate equation is typically rounded to 0.35 in calculations. Assume perception reaction time

User Andy Balaam
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1 Answer

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Complete question is;

The design speed of a multilane highway is 60 mi/h. Determine (a) the minimum stopping sight distance that should be provided for a level roadway, and (b) the minimum stopping sight distance that should be provided for a roadway with a maximum grade of 7 percent. Note: The term a/g in the appropriate equation is typically rounded to 0.35 in calculations. Assume perception reaction time of 2.5 sec.

Answer:

A) SSD = 563.357 ft

B) SSD = 506.214 ft

Step-by-step explanation:

A) Formula for sight stopping distance is;

SSD = 1.47ut + [u²/(30((a/g) ± G)]

We are given;

Speed; u = 60 mi/hr

Perception time; t = 2.5 s

Ratio of deceleration to gravitational acceleration; a/g = 0.35

Grade of road will be 0 because we are told that it is a level roadway. Thus, G = 0

Plugging in the relevant values;

SSD = (1.47 × 60 × 2.5) + (60²/30(0.35 ± 0))

SSD = 220.5 + 342.857

SSD = 563.357 ft

B) The road now has a grade of 7%. So, G = 0.07.

Now, this can either be a downgrade or an upgrade.

For minimum sight stopping distance, it will have to be a upgrade as the denominator of [u²/(30((a/g) ± G)] will be larger because we will use positive instead of negative before G.

Thus;

SSD = (1.47 × 60 × 2.5) + (60²/30(0.35 + 0.07))

SSD = 220.5 + 285.714

SSD = 506.214 ft

User Pkaleta
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