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The maximum super elevation to be provided on a road curve is 1 in 15. If the rate of change of super elevation is specified as 1 in 120 and the road width is 10m, then the minimum length of the transition curve on the either end will be
- a)180m
- b)125m
- c)80m
- d)30m
Correct answer is option 'C'. Can you explain this answer?
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Verified Answer
The maximum super elevation to be provided on a road curve is 1 in 15....
L = eNW = 1/15 x 120 x 10 = 80m
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Most Upvoted Answer
The maximum super elevation to be provided on a road curve is 1 in 15....
Given: Maximum super elevation = 1 in 15, Rate of change of super elevation = 1 in 120, Road width = 10m.
To find: Minimum length of transition curve on either end.
Solution:
What is super elevation?
Super elevation is the banking of road curves to counteract the centrifugal force acting on a vehicle as it moves along the curve. The aim of providing super elevation is to increase the safe speed of a vehicle on a curve without skidding or overturning.
What is a transition curve?
A transition curve is a curve that is used to gradually introduce the super elevation on a road curve. It is a curve that connects the circular curve and the tangent of the road.
Formula:
The length of transition curve can be calculated using the following formula:
L = V^2/127R
Where,
L = Length of transition curve, in meters
V = Design speed, in km/hr
R = Radius of circular curve, in meters
Calculation:
Given: Maximum super elevation = 1 in 15, Rate of change of super elevation = 1 in 120, Road width = 10m.
To find: Minimum length of transition curve on either end.
Step 1: Calculation of Radius of Circular Curve:
The maximum super elevation that can be provided on a road curve is 1 in 15.
i.e. e = 1/15
The rate of change of super elevation is specified as 1 in 120.
i.e. de/dx = 1/120
The radius of the circular curve can be calculated using the following formula:
R = (W^2)/(2e) + (e/2)
Where,
W = Road width = 10m
e = Super elevation = 1/15
Putting the values, we get:
R = (10^2)/(2*(1/15)) + (1/2)
R = 375m
Step 2: Calculation of Design Speed:
The design speed of the road curve can be calculated using the following formula:
V = 3.6√(fR)
Where,
V = Design speed, in km/hr
f = Coefficient of friction = 0.15 (assumed)
R = Radius of circular curve, in meters
Putting the values, we get:
V = 3.6√(0.15*375)
V = 47.18 km/hr
Step 3: Calculation of Length of Transition Curve:
The length of transition curve can be calculated using the following formula:
L = V^2/127R
Putting the values, we get:
L = (47.18^2)/(127*375)
L = 80.17m
Therefore, the minimum length of the transition curve on either end will be 80m (approx).
Hence, the correct option is (C) 80m.
To find: Minimum length of transition curve on either end.
Solution:
What is super elevation?
Super elevation is the banking of road curves to counteract the centrifugal force acting on a vehicle as it moves along the curve. The aim of providing super elevation is to increase the safe speed of a vehicle on a curve without skidding or overturning.
What is a transition curve?
A transition curve is a curve that is used to gradually introduce the super elevation on a road curve. It is a curve that connects the circular curve and the tangent of the road.
Formula:
The length of transition curve can be calculated using the following formula:
L = V^2/127R
Where,
L = Length of transition curve, in meters
V = Design speed, in km/hr
R = Radius of circular curve, in meters
Calculation:
Given: Maximum super elevation = 1 in 15, Rate of change of super elevation = 1 in 120, Road width = 10m.
To find: Minimum length of transition curve on either end.
Step 1: Calculation of Radius of Circular Curve:
The maximum super elevation that can be provided on a road curve is 1 in 15.
i.e. e = 1/15
The rate of change of super elevation is specified as 1 in 120.
i.e. de/dx = 1/120
The radius of the circular curve can be calculated using the following formula:
R = (W^2)/(2e) + (e/2)
Where,
W = Road width = 10m
e = Super elevation = 1/15
Putting the values, we get:
R = (10^2)/(2*(1/15)) + (1/2)
R = 375m
Step 2: Calculation of Design Speed:
The design speed of the road curve can be calculated using the following formula:
V = 3.6√(fR)
Where,
V = Design speed, in km/hr
f = Coefficient of friction = 0.15 (assumed)
R = Radius of circular curve, in meters
Putting the values, we get:
V = 3.6√(0.15*375)
V = 47.18 km/hr
Step 3: Calculation of Length of Transition Curve:
The length of transition curve can be calculated using the following formula:
L = V^2/127R
Putting the values, we get:
L = (47.18^2)/(127*375)
L = 80.17m
Therefore, the minimum length of the transition curve on either end will be 80m (approx).
Hence, the correct option is (C) 80m.
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Community Answer
The maximum super elevation to be provided on a road curve is 1 in 15....
e = superelevation
N = the rate change of superelevation 1/N
W = total width
Case 1: Rotation of pavement by inner edge:
L=eNW
L = (1/15)120*10
L=80m
Case 2: Rotation of pavement about centres:
L = (eNW)/2
L=80/2=40m
Since, L= 40 m is not in option, we go for case 1 transition curve is 80 m.
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The maximum super elevation to be provided on a road curve is 1 in 15. If the rate of change of super elevation is specified as 1 in 120 and the road width is 10m, then the minimum length of the transition curve on the either end will bea)180mb)125mc)80md)30mCorrect answer is option 'C'. Can you explain this answer?
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