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Setback Distance for Single Lane Road where Ls is greater than Lc Formula

GoSetback Distance where Ls is Smaller than Lc Formula

GoSetback Distance for Multi Lane Road where Ls is greater than Lc Formula

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Setback Distance is the distance required from the centerline of a horizontal curve to an obstruction on the inner side of the curve to provide adequate sight distance at a horizontal curve. Check FAQs

m = R trans - R trans \cdot \cos (\frac{α 1}{2}) + (\frac{S - L c}{2}) \cdot \sin (\frac{α 1}{2})

m - Setback Distance?R_trans - Radius for Transition Curve?α₁ - Angle subtended by Radius of Curve for Single Lane?S - Sight Distance?L_c - Length of Transition Curve?

Setback Distance for Single Lane Road where Ls is greater than Lc Example

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Here is how the Setback Distance for Single Lane Road where Ls is greater than Lc equation looks like with Values.

Here is how the Setback Distance for Single Lane Road where Ls is greater than Lc equation looks like with Units.

Here is how the Setback Distance for Single Lane Road where Ls is greater than Lc equation looks like.

25.487 = 300 - 300 \cdot \cos (\frac{90}{2}) + (\frac{3.56 - 180}{2}) \cdot \sin (\frac{90}{2})

25.487m = 300m - 300m \cdot \cos (\frac{90°}{2}) + (\frac{3.56m - 180m}{2}) \cdot \sin (\frac{90°}{2})

25.487 = 300 - 300 \cdot \cos (\frac{90}{2}) + (\frac{3.56 - 180}{2}) \cdot \sin (\frac{90}{2})

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Setback Distance for Single Lane Road where Ls is greater than Lc Solution

Follow our step by step solution on how to calculate Setback Distance for Single Lane Road where Ls is greater than Lc?

FIRST Step Consider the formula

m = R trans - R trans \cdot \cos (\frac{α 1}{2}) + (\frac{S - L c}{2}) \cdot \sin (\frac{α 1}{2})

Next Step Substitute values of Variables

∴

m = 300m - 300m \cdot \cos (\frac{90°}{2}) + (\frac{3.56m - 180m}{2}) \cdot \sin (\frac{90°}{2})

Next Step Convert Units

∴

m = 300m - 300m \cdot \cos (\frac{1.5708rad}{2}) + (\frac{3.56m - 180m}{2}) \cdot \sin (\frac{1.5708rad}{2})

Next Step Prepare to Evaluate

∴

m = 300 - 300 \cdot \cos (\frac{1.5708}{2}) + (\frac{3.56 - 180}{2}) \cdot \sin (\frac{1.5708}{2})

Next Step Evaluate

∴

m = 25.4870054077363m

LAST Step Rounding Answer

∴

m = 25.487m

Setback Distance for Single Lane Road where Ls is greater than Lc Formula Elements

Variables

Functions

Setback Distance

Setback Distance is the distance required from the centerline of a horizontal curve to an obstruction on the inner side of the curve to provide adequate sight distance at a horizontal curve.

Symbol: m

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Setback Distance

Radius for Transition Curve

Radius for Transition Curve is the radius at the point of transition curve of roadways.

Symbol: R_trans

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius for Transition Curve

Angle subtended by Radius of Curve for Single Lane

Angle subtended by Radius of Curve for Single Lane is the angle formed by radius of curve where Ls is less than Lc.

Symbol: α₁

Measurement: AngleUnit: °

Note: Value should be greater than 0.

Formulas to find Angle subtended by Radius of Curve for Single Lane

Sight Distance

Sight Distance is s the minimum distance between two vehicles moving along a curve, when the driver of one vehicle can just see the other vehicle on the road.

Symbol: S

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Sight Distance

Length of Transition Curve

Length of Transition Curve is a curve in plan which is provided to change the horizontal alignment from straight to circular curve.

Symbol: L_c

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Length of Transition Curve

sin

Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse.

Syntax: sin(Angle)

cos

Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.

Syntax: cos(Angle)

Other Formulas to find Setback Distance

Go Setback Distance where Ls is Smaller than Lc

m = R trans - R trans \cdot \cos (\frac{α 1}{2})

Go Setback Distance for Multi Lane Road where Ls is greater than Lc

m = R trans - (R trans - d) \cdot \cos (\frac{α 1}{2}) + (\frac{S - L c}{2}) \cdot \sin (\frac{α 1}{2})

Other formulas in Design of Transition Curves and Setback Distances category

Go Rate of Change of Centrifugal Acceleration

C = \frac{{v vehicle}^{3}}{L c \cdot R trans}

Go Length of Transition Curve given Centrifugal Acceleration

L c = \frac{{v vehicle}^{3}}{C \cdot R trans}

Go Rate of Change of Centrifugal Acceleration given Empirical Formula

C = \frac{80}{75 + 3.6 \cdot v vehicle}

Go Length of Transition Curve given Super-Elevation

L c = N \cdot e \cdot (W e + W)

How to Evaluate Setback Distance for Single Lane Road where Ls is greater than Lc?

Setback Distance for Single Lane Road where Ls is greater than Lc evaluator uses Setback Distance = Radius for Transition Curve-Radius for Transition Curve*cos(Angle subtended by Radius of Curve for Single Lane/2)+((Sight Distance-Length of Transition Curve)/2)*sin(Angle subtended by Radius of Curve for Single Lane/2) to evaluate the Setback Distance, The Setback Distance for Single Lane Road where Ls is greater than Lc formula is defined as the clearance distance is the distance required from the centerline of a horizontal curve to an obstruction on the inner side of the curve to provide adequate sight distance at a horizontal curve. Setback Distance is denoted by m symbol.

How to evaluate Setback Distance for Single Lane Road where Ls is greater than Lc using this online evaluator? To use this online evaluator for Setback Distance for Single Lane Road where Ls is greater than Lc, enter Radius for Transition Curve (R_trans), Angle subtended by Radius of Curve for Single Lane (α₁), Sight Distance (S) & Length of Transition Curve (L_c) and hit the calculate button.

FAQs on Setback Distance for Single Lane Road where Ls is greater than Lc

What is the formula to find Setback Distance for Single Lane Road where Ls is greater than Lc?

The formula of Setback Distance for Single Lane Road where Ls is greater than Lc is expressed as Setback Distance = Radius for Transition Curve-Radius for Transition Curve*cos(Angle subtended by Radius of Curve for Single Lane/2)+((Sight Distance-Length of Transition Curve)/2)*sin(Angle subtended by Radius of Curve for Single Lane/2). Here is an example- 25.48701 = 300-300*cos(1.5707963267946/2)+((3.56-180)/2)*sin(1.5707963267946/2).

How to calculate Setback Distance for Single Lane Road where Ls is greater than Lc?

With Radius for Transition Curve (R_trans), Angle subtended by Radius of Curve for Single Lane (α₁), Sight Distance (S) & Length of Transition Curve (L_c) we can find Setback Distance for Single Lane Road where Ls is greater than Lc using the formula - Setback Distance = Radius for Transition Curve-Radius for Transition Curve*cos(Angle subtended by Radius of Curve for Single Lane/2)+((Sight Distance-Length of Transition Curve)/2)*sin(Angle subtended by Radius of Curve for Single Lane/2). This formula also uses Sine (sin), Cosine (cos) function(s).

What are the other ways to Calculate Setback Distance?

Here are the different ways to Calculate Setback Distance-

Setback Distance=Radius for Transition Curve-Radius for Transition Curve*cos(Angle subtended by Radius of Curve for Single Lane/2)
Setback Distance=Radius for Transition Curve-(Radius for Transition Curve-Center Distance between Road and Inner Lane)*cos(Angle subtended by Radius of Curve for Single Lane/2)+((Sight Distance-Length of Transition Curve)/2)*sin(Angle subtended by Radius of Curve for Single Lane/2)

Can the Setback Distance for Single Lane Road where Ls is greater than Lc be negative?

No, the Setback Distance for Single Lane Road where Ls is greater than Lc, measured in Length cannot be negative.

Which unit is used to measure Setback Distance for Single Lane Road where Ls is greater than Lc?

Setback Distance for Single Lane Road where Ls is greater than Lc is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Setback Distance for Single Lane Road where Ls is greater than Lc can be measured.

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Setback Distance for Single Lane Road where Ls is greater than Lc Formula

​GoSetback Distance where Ls is Smaller than Lc Formula

​GoSetback Distance for Multi Lane Road where Ls is greater than Lc Formula

Setback Distance for Single Lane Road where Ls is greater than Lc Example

Setback Distance for Single Lane Road where Ls is greater than Lc Solution

Setback Distance for Single Lane Road where Ls is greater than Lc Formula Elements

Other Formulas to find Setback Distance

Other formulas in Design of Transition Curves and Setback Distances category

How to Evaluate Setback Distance for Single Lane Road where Ls is greater than Lc?

FAQs on Setback Distance for Single Lane Road where Ls is greater than Lc

Variable Name

GoSetback Distance where Ls is Smaller than Lc Formula

GoSetback Distance for Multi Lane Road where Ls is greater than Lc Formula