## Equilibrium Cant for MG Solution

STEP 0: Pre-Calculation Summary
Formula Used
Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve)
emg = 1.000*V^2/(127*R)
This formula uses 3 Variables
Variables Used
Equilibrium Cant for Meter Gauge - (Measured in Meter) - Equilibrium cant for meter gauge is the difference between the height of the outer rail and the inner rail on a curve in case of meter gauge track.
Speed of Vehicle on Track - (Measured in Kilometer per Hour) - Speed of vehicle on track is the speed of train moving on given track.
Radius of Curve - (Measured in Meter) - Radius of Curve is the radius of a circle whose part, say, arc is taken for consideration.
STEP 1: Convert Input(s) to Base Unit
Speed of Vehicle on Track: 81 Kilometer per Hour --> 81 Kilometer per Hour No Conversion Required
Radius of Curve: 344 Meter --> 344 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
emg = 1.000*V^2/(127*R) --> 1.000*81^2/(127*344)
Evaluating ... ...
emg = 0.15017853872917
STEP 3: Convert Result to Output's Unit
0.15017853872917 Meter --> No Conversion Required
0.15017853872917 0.150179 Meter <-- Equilibrium Cant for Meter Gauge
(Calculation completed in 00.003 seconds)
You are here -
Home »

## Credits

R V College of Engineering (RVCE), Bangalore
Adnan H Kotawala has created this Calculator and 25+ more calculators!
Verified by Rachana B V
The National Institute of Engineering (NIE), Mysuru
Rachana B V has verified this Calculator and 50+ more calculators!

## < 12 Geometric Design of the Track Calculators

Weighted Average of Different Trains at Different Speeds
Weighted Average Speed = (Number of Trains with Speed 1*Speed of Trains Moving with Same Speed 1+Number of Trains with Speed 2*Speed of Trains Moving with Same Speed 2+Number of Trains with Speed 3*Speed of Trains Moving with Same Speed 3+Number of Trains with Speed 4*Speed of Trains Moving with Same Speed 4)/(Number of Trains with Speed 1+Number of Trains with Speed 2+Number of Trains with Speed 3+Number of Trains with Speed 4)
Equilibrium Cant in Railways
Equilibrium Cant in Railways = Gauge of Track*Speed of Vehicle on Track^2/(127*Radius of Curve)
Shift in Railways for Cubic Parabola
Shift in Railways in Cubic parabola = Length of Transition Curve in meters^2/(24*Radius of Curve)
Equilibrium Cant for NG
Equilibrium Cant for Narrow Gauge = 0.762*Speed of Vehicle on Track^2/(127*Radius of Curve)
Equilibrium Cant for BG
Equilibrium Cant for Broad Gauge = 1.676*Speed of Vehicle on Track^2/(127*Radius of Curve)
Equilibrium Cant for MG
Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve)
Cant Deficiency for given Maximum Theoretical Cant
Cant Deficiency = Maximum Theoretical cant-Maximum Equilibrium Cant
Maximum Theoretical Cant in Railways
Maximum Theoretical cant = Maximum Equilibrium Cant+Cant Deficiency
Radius for given Degree of Curve in Railways
Radius of Curve = (1720/Degree of Curve for Railways)*(pi/180)
Degree of Curve in Railways
Degree of Curve for Railways = (1720/Radius of Curve)*(pi/180)
Cant Deficiency for given Theoretical Cant
Cant Deficiency = Theoretical Cant-Equilibrium Cant
Theoretical Cant in Railways
Theoretical Cant = Equilibrium Cant+Cant Deficiency

## Equilibrium Cant for MG Formula

Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve)
emg = 1.000*V^2/(127*R)

## Equilibrium cant for MG

Equilibrium cant for MG is defined as the difference between the height of the outer rail and the inner rail on a curve in case of meter gauge track. When a train goes around a curve it exerts an outwards force on the tracks – tilting the track to be perpendicular to this force gives us “equilibrium cant”

## How to Calculate Equilibrium Cant for MG?

Equilibrium Cant for MG calculator uses Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve) to calculate the Equilibrium Cant for Meter Gauge, Equilibrium Cant for MG is defined as the difference between the height of the outer rail and the inner rail on a curve in case of meter gauge track. Equilibrium Cant for Meter Gauge is denoted by emg symbol.

How to calculate Equilibrium Cant for MG using this online calculator? To use this online calculator for Equilibrium Cant for MG, enter Speed of Vehicle on Track (V) & Radius of Curve (R) and hit the calculate button. Here is how the Equilibrium Cant for MG calculation can be explained with given input values -> 0.011588 = 1.000*22.5^2/(127*344).

### FAQ

What is Equilibrium Cant for MG?
Equilibrium Cant for MG is defined as the difference between the height of the outer rail and the inner rail on a curve in case of meter gauge track and is represented as emg = 1.000*V^2/(127*R) or Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve). Speed of vehicle on track is the speed of train moving on given track & Radius of Curve is the radius of a circle whose part, say, arc is taken for consideration.
How to calculate Equilibrium Cant for MG?
Equilibrium Cant for MG is defined as the difference between the height of the outer rail and the inner rail on a curve in case of meter gauge track is calculated using Equilibrium Cant for Meter Gauge = 1.000*Speed of Vehicle on Track^2/(127*Radius of Curve). To calculate Equilibrium Cant for MG, you need Speed of Vehicle on Track (V) & Radius of Curve (R). With our tool, you need to enter the respective value for Speed of Vehicle on Track & Radius of Curve and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well. Let Others Know