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## Radius of curve when velocity in turn Solution

STEP 0: Pre-Calculation Summary
Formula Used
radius_of_curve = (Turning Speed of Aircraft/4.1120)^1/0.5
R = (V/4.1120)^1/0.5
This formula uses 1 Variables
Variables Used
Turning Speed of Aircraft - Turning Speed of Aircraft at the exit taxiway. Aircraft maneuvering is referenced to a standard rate turn, also known as a rate one turn (ROT). (Measured in Kilometer per Hour)
STEP 1: Convert Input(s) to Base Unit
Turning Speed of Aircraft: 50 Kilometer per Hour --> 13.8888888888889 Meter per Second (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
R = (V/4.1120)^1/0.5 --> (13.8888888888889/4.1120)^1/0.5
Evaluating ... ...
R = 6.75529615218332
STEP 3: Convert Result to Output's Unit
6.75529615218332 Meter --> No Conversion Required
6.75529615218332 Meter <-- Radius of curve
(Calculation completed in 00.015 seconds)

## < 10+ Turning Radius Calculators

Radius of entrance curve when deflection angle of entrance curve is given
radius_of_curve = Deflection Angle of the Entrance Curve/(180*(Length of Entrance Curve/pi)) Go
Length of entrance curve when deflection angle of entrance curve is given
length_entrance_curve = (pi*Deflection Angle of the Entrance Curve)/(180*Radius of curve) Go
Horonjeff Equation for Turning Radius of Taxiway
radius_of_curve = (0.388*Wheelbase^2)/((0.5*Taxiway Width)-Distance between midway points) Go
Taxiway Width when Turning Radius is Given
taxiway_width = (((0.388*Wheelbase^2)/Radius of curve)+Distance between midway points)/0.5 Go
Deflection angle of entrance curve
deflecttion_angle_entrance_curve = 180*(Length of Entrance Curve/pi)*Radius of curve Go
Distance between Midway Points of Main Gears and the Edge of Taxiway Pavements
distance_bet_midway_taxiway = (0.5*Taxiway Width)-(0.388*Wheelbase^2/Radius of curve) Go
Turning Speed of Aircraft when Radius of Curve is Given
turning_speed = sqrt(Radius of curve*Coefficient of Friction*125) Go
radius_of_curve = (Turning Speed of Aircraft^2)/125*Coefficient of Friction Go
Deflection angle of entrance curve when deflection of angle at central curve is given
deflecttion_angle_entrance_curve = 35-Deflection Angle of the Central Curve Go
Deflection of angle at central curve
deflecttion_angle_central_curve = 35-Deflection Angle of the Entrance Curve Go

### Radius of curve when velocity in turn Formula

radius_of_curve = (Turning Speed of Aircraft/4.1120)^1/0.5
R = (V/4.1120)^1/0.5

## What is Sight distance?

Sight distance is the length of roadway visible to a driver. The three types of sight distance common in roadway design are intersection sight distance, stopping sight distance, and passing sight distance.

## How to Calculate Radius of curve when velocity in turn?

Radius of curve when velocity in turn calculator uses radius_of_curve = (Turning Speed of Aircraft/4.1120)^1/0.5 to calculate the Radius of curve, The Radius of curve when velocity in turn refers to the distance between the center of a circle or any other point on the circumference of the circle and surface of the sphere. Radius of curve and is denoted by R symbol.

How to calculate Radius of curve when velocity in turn using this online calculator? To use this online calculator for Radius of curve when velocity in turn, enter Turning Speed of Aircraft (V) and hit the calculate button. Here is how the Radius of curve when velocity in turn calculation can be explained with given input values -> 6.755296 = (13.8888888888889/4.1120)^1/0.5.

### FAQ

What is Radius of curve when velocity in turn?
The Radius of curve when velocity in turn refers to the distance between the center of a circle or any other point on the circumference of the circle and surface of the sphere and is represented as R = (V/4.1120)^1/0.5 or radius_of_curve = (Turning Speed of Aircraft/4.1120)^1/0.5. Turning Speed of Aircraft at the exit taxiway. Aircraft maneuvering is referenced to a standard rate turn, also known as a rate one turn (ROT).
How to calculate Radius of curve when velocity in turn?
The Radius of curve when velocity in turn refers to the distance between the center of a circle or any other point on the circumference of the circle and surface of the sphere is calculated using radius_of_curve = (Turning Speed of Aircraft/4.1120)^1/0.5. To calculate Radius of curve when velocity in turn, you need Turning Speed of Aircraft (V). With our tool, you need to enter the respective value for Turning Speed of Aircraft and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Radius of curve?
In this formula, Radius of curve uses Turning Speed of Aircraft. We can use 10 other way(s) to calculate the same, which is/are as follows -
• radius_of_curve = (Turning Speed of Aircraft^2)/125*Coefficient of Friction
• turning_speed = sqrt(Radius of curve*Coefficient of Friction*125)
• taxiway_width = (((0.388*Wheelbase^2)/Radius of curve)+Distance between midway points)/0.5
• radius_of_curve = (0.388*Wheelbase^2)/((0.5*Taxiway Width)-Distance between midway points)
• distance_bet_midway_taxiway = (0.5*Taxiway Width)-(0.388*Wheelbase^2/Radius of curve)
• deflecttion_angle_entrance_curve = 180*(Length of Entrance Curve/pi)*Radius of curve
• length_entrance_curve = (pi*Deflection Angle of the Entrance Curve)/(180*Radius of curve)
• radius_of_curve = Deflection Angle of the Entrance Curve/(180*(Length of Entrance Curve/pi))
• deflecttion_angle_central_curve = 35-Deflection Angle of the Entrance Curve
• deflecttion_angle_entrance_curve = 35-Deflection Angle of the Central Curve
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