Usable Pull to Overcome Loss of Power with Altitude Calculator

✖Coefficient of Traction is the ratio of the maximum tractive force to the normal force.ⓘ Coefficient of Traction [f]			+10% -10%
✖Weight on Wheels is the weight of an equipment is resting on its wheels.ⓘ Weight on Wheels [W]			+10% -10%

✖Usable Pull is a physical force or an attraction that makes somebody or something move in a particular direction.ⓘ Usable Pull to Overcome Loss of Power with Altitude [P]

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Formula

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Usable Pull to Overcome Loss of Power with Altitude

Formula

`"P" = ("f"*"W")`

Example

`"14N"=("0.7"*"20.0kg")`

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Usable Pull to Overcome Loss of Power with Altitude Solution

STEP 0: Pre-Calculation Summary

Formula Used

Usable Pull = (Coefficient of Traction*Weight on Wheels)
P = (f*W)
This formula uses 3 Variables

Variables Used

Usable Pull - (Measured in Newton) - Usable Pull is a physical force or an attraction that makes somebody or something move in a particular direction.
Coefficient of Traction - Coefficient of Traction is the ratio of the maximum tractive force to the normal force.
Weight on Wheels - (Measured in Kilogram) - Weight on Wheels is the weight of an equipment is resting on its wheels.

STEP 1: Convert Input(s) to Base Unit

Coefficient of Traction: 0.7 --> No Conversion Required
Weight on Wheels: 20 Kilogram --> 20 Kilogram No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P = (f*W) --> (0.7*20)

Evaluating ... ...

P = 14

STEP 3: Convert Result to Output's Unit

14 Newton --> No Conversion Required

FINAL ANSWER

14 Newton <-- Usable Pull

(Calculation completed in 00.004 seconds)

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Credits

Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has created this Calculator and 2200+ more calculators!

Verified by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

Ishita Goyal has verified this Calculator and 2600+ more calculators!

< 12 Earth Moving Calculators

Rolling Resistance to Motion of Wheeled Vehicles

Go Rolling Resistance = (Rolling Resistance Factor*Weight on Wheels)+(Tire Penetration Factor*Tire Penetration*Weight on Wheels)

Weight on Wheels given Rolling Resistance

Go Weight on Wheels = (Rolling Resistance/(Rolling Resistance Factor+Tire Penetration Factor*Tire Penetration))

Total Road Resistance given Rolling Resistance and Grade Resistance

Go Total Road Resistance = ((0.02+0.015*Tire Penetration+0.01*Percent Grade)*Weight on Wheels)

Weight on Wheels given Total Road Resistance

Go Weight on Wheels = (Total Road Resistance/(0.02+0.015*Tire Penetration+0.01*Percent Grade))

Grade Resistance Factor given Grade Resistance for Motion on Slope

Go Grade Resistance Factor = (Grade Resistance/(Percent Grade*Weight on Wheels))

Weight on Wheels using Grade Resistance for Motion on Slope

Go Weight on Wheels = (Grade Resistance/(Grade Resistance Factor*Percent Grade))

Percent Grade given Grade Resistance for Motion on Slope

Go Percent Grade = (Grade Resistance/(Grade Resistance Factor*Weight on Wheels))

Grade Resistance for Motion on Slope

Go Grade Resistance = Grade Resistance Factor*Percent Grade*Weight on Wheels

Rolling Resistance when Rolling Resistance Factor is Two Percent

Go Rolling Resistance = (0.02+0.015*Tire Penetration)*Weight on Wheels

Usable Pull to Overcome Loss of Power with Altitude

Go Usable Pull = (Coefficient of Traction*Weight on Wheels)

Coefficient of Traction given Usable Pull

Go Coefficient of Traction = (Usable Pull/Weight on Wheels)

Weight on Drivers given Usable Pull

Go Weight on Wheels = (Usable Pull/Coefficient of Traction)

Usable Pull to Overcome Loss of Power with Altitude Formula

Usable Pull = (Coefficient of Traction*Weight on Wheels)
P = (f*W)

What is Coefficient of Traction?

Traction can also refer to the maximum tractive force between a body and a surface, as limited by available friction; when this is the case, traction is often expressed as the ratio of the maximum tractive force to the normal force and is termed the coefficient of traction (similar to coefficient of friction).

How to Calculate Usable Pull to Overcome Loss of Power with Altitude?

Usable Pull to Overcome Loss of Power with Altitude calculator uses Usable Pull = (Coefficient of Traction*Weight on Wheels) to calculate the Usable Pull, The Usable Pull to Overcome Loss of Power with Altitude is defined as the pull required to move the vehicle when we have prior information of coefficient of traction and weight on wheels. Usable Pull is denoted by P symbol.

How to calculate Usable Pull to Overcome Loss of Power with Altitude using this online calculator? To use this online calculator for Usable Pull to Overcome Loss of Power with Altitude, enter Coefficient of Traction (f) & Weight on Wheels (W) and hit the calculate button. Here is how the Usable Pull to Overcome Loss of Power with Altitude calculation can be explained with given input values -> 14 = (0.7*20).

FAQ

What is Usable Pull to Overcome Loss of Power with Altitude?

The Usable Pull to Overcome Loss of Power with Altitude is defined as the pull required to move the vehicle when we have prior information of coefficient of traction and weight on wheels and is represented as P = (f*W) or Usable Pull = (Coefficient of Traction*Weight on Wheels). Coefficient of Traction is the ratio of the maximum tractive force to the normal force & Weight on Wheels is the weight of an equipment is resting on its wheels.

How to calculate Usable Pull to Overcome Loss of Power with Altitude?

The Usable Pull to Overcome Loss of Power with Altitude is defined as the pull required to move the vehicle when we have prior information of coefficient of traction and weight on wheels is calculated using Usable Pull = (Coefficient of Traction*Weight on Wheels). To calculate Usable Pull to Overcome Loss of Power with Altitude, you need Coefficient of Traction (f) & Weight on Wheels (W). With our tool, you need to enter the respective value for Coefficient of Traction & Weight on Wheels 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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