Accelerating Weight of Train Calculator

✖Weight of Train is total weight of the train in tonns.ⓘ Weight of Train [W]

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✖Accelerating Weight of Train is the effective weight of train that has angular acceleration due to the rotational inertia including the dead weight of the train.ⓘ Accelerating Weight of Train [W_e]

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Formula

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Accelerating Weight of Train

Formula

`"W"_{"e"} = "W"*1.10`

Example

`"33000AT (US)"="30000AT (US)"*1.10`

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Accelerating Weight of Train Solution

STEP 0: Pre-Calculation Summary

Formula Used

Accelerating Weight of Train = Weight of Train*1.10
W_e = W*1.10
This formula uses 2 Variables

Variables Used

Accelerating Weight of Train - (Measured in Kilogram) - Accelerating Weight of Train is the effective weight of train that has angular acceleration due to the rotational inertia including the dead weight of the train.
Weight of Train - (Measured in Kilogram) - Weight of Train is total weight of the train in tonns.

STEP 1: Convert Input(s) to Base Unit

Weight of Train: 30000 Ton (Assay) (US) --> 875.000100008866 Kilogram (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_e = W*1.10 --> 875.000100008866*1.10

Evaluating ... ...

W_e = 962.500110009753

STEP 3: Convert Result to Output's Unit

962.500110009753 Kilogram -->33000 Ton (Assay) (US) (Check conversion here)

FINAL ANSWER

33000 Ton (Assay) (US) <-- Accelerating Weight of Train

(Calculation completed in 00.020 seconds)

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Created by Prahalad Singh

Jaipur Engineering College and Research Centre (JECRC), Jaipur

Prahalad Singh has created this Calculator and 100+ more calculators!

Verified by Payal Priya

Birsa Institute of Technology (BIT), Sindri

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< 13 Mechanics of Train Movement Calculators

Translational Speed of Wheel Center

Go Translational Speed = (pi*Effective Radius of Wheel*Speed of Motor Shaft in Powerplant)/(30*Gear Ratio of Transmission*Gear Ratio of Final Drive)

Wheel Force Function

Go Wheel Force Function = (Gear Ratio of Transmission*Gear Ratio of Final Drive*Engine Torque)/(2*Radius of Wheel)

Rotating Speed of Driven Wheel

Go Rotating Speed of Driven Wheels = (Speed of Motor Shaft in Powerplant)/(Gear Ratio of Transmission*Gear Ratio of Final Drive)

Aerodynamic Drag Force

Go Drag Force = Drag Coefficient*((Mass Density*Flow Velocity^2)/2)*Reference Area

Schedule Speed

Go Schedule Speed = Distance Travelled by Train/(Running Time of Train+Stop Time of Train)

Crest Speed given Time for Acceleration

Go Crest Speed = Time for Acceleration*Acceleration of Train

Coefficient of Adhesion

Go Coefficient of Adhesion = Tractive Effort/Weight of Train

Time for Acceleration

Go Time for Acceleration = Crest Speed/Acceleration of Train

Schedule Time

Go Schedule Time = Running Time of Train+Stop Time of Train

Retardation of Train

Go Retardation of Train = Crest Speed/Time for Retardation

Time for Retardation

Go Time for Retardation = Crest Speed/Retardation of Train

Gradient of Train for Proper Movement of Traffic

Go Gradient = sin(Angle D)*100

Accelerating Weight of Train

Go Accelerating Weight of Train = Weight of Train*1.10

< 15 Electric Train Physics Calculators

Torque of Squirrel Cage Induction Motor

Go Torque = (Constant*Voltage^2*Rotor Resistance)/((Stator Resistance+Rotor Resistance)^2+(Stator Reactance+Rotor Reactance)^2)

Torque Generated by Scherbius Drive

Go Torque = 1.35*((Back Emf*AC Line Voltage*Rectified Rotor Current*RMS Value of Rotor Side Line Voltage)/(Back Emf*Angular Frequency))

Wheel Force Function

Go Wheel Force Function = (Gear Ratio of Transmission*Gear Ratio of Final Drive*Engine Torque)/(2*Radius of Wheel)

Rotating Speed of Driven Wheel

Go Rotating Speed of Driven Wheels = (Speed of Motor Shaft in Powerplant)/(Gear Ratio of Transmission*Gear Ratio of Final Drive)

Aerodynamic Drag Force

Go Drag Force = Drag Coefficient*((Mass Density*Flow Velocity^2)/2)*Reference Area

Schedule Speed

Go Schedule Speed = Distance Travelled by Train/(Running Time of Train+Stop Time of Train)

Energy Consumption for Run

Go Energy Consumption for Run = 0.5*Tractive Effort*Crest Speed*Time for Acceleration

Crest Speed given Time for Acceleration

Go Crest Speed = Time for Acceleration*Acceleration of Train

Maximum Power Output from Driving Axle

Go Maximum Output Power = (Tractive Effort*Crest Speed)/3600

Coefficient of Adhesion

Go Coefficient of Adhesion = Tractive Effort/Weight of Train

Time for Acceleration

Go Time for Acceleration = Crest Speed/Acceleration of Train

Schedule Time

Go Schedule Time = Running Time of Train+Stop Time of Train

Retardation of Train

Go Retardation of Train = Crest Speed/Time for Retardation

Time for Retardation

Go Time for Retardation = Crest Speed/Retardation of Train

Accelerating Weight of Train

Go Accelerating Weight of Train = Weight of Train*1.10

Accelerating Weight of Train Formula

Accelerating Weight of Train = Weight of Train*1.10
W_e = W*1.10

What is the notching period in the speed-time curve for trains?

In the speed-time curve for trains, the notching period is the Constant Acceleration Period. The slope of the speed-time curve at any point gives the Acceleration of the train at that point of time and the Retardation of the train at that point of time.

How to Calculate Accelerating Weight of Train?

Accelerating Weight of Train calculator uses Accelerating Weight of Train = Weight of Train*1.10 to calculate the Accelerating Weight of Train, The Accelerating weight of train formula is defined as the effective weight of a train that has angular acceleration due to the rotational inertia including the dead weight of the train. Accelerating Weight of Train is denoted by W_e symbol.

How to calculate Accelerating Weight of Train using this online calculator? To use this online calculator for Accelerating Weight of Train, enter Weight of Train (W) and hit the calculate button. Here is how the Accelerating Weight of Train calculation can be explained with given input values -> 1.1E+6 = 875.000100008866*1.10.

FAQ

What is Accelerating Weight of Train?

The Accelerating weight of train formula is defined as the effective weight of a train that has angular acceleration due to the rotational inertia including the dead weight of the train and is represented as W_e = W*1.10 or Accelerating Weight of Train = Weight of Train*1.10. Weight of Train is total weight of the train in tonns.

How to calculate Accelerating Weight of Train?

The Accelerating weight of train formula is defined as the effective weight of a train that has angular acceleration due to the rotational inertia including the dead weight of the train is calculated using Accelerating Weight of Train = Weight of Train*1.10. To calculate Accelerating Weight of Train, you need Weight of Train (W). With our tool, you need to enter the respective value for Weight of Train and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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