Concentrated Wheel Load given Average Load on Pipe Calculator

✖Average Load on Pipe in Newton per Meter is the average of all the loads applied on the pipe due to different components considered in Environmental Engineering.ⓘ Average Load on Pipe in Newton per Meter [W_avg]			+10% -10%
✖Effective Length of Pipe is the length of pipe of the same size as the fitting that would give rise to the same pressure drop as the fitting.ⓘ Effective Length of Pipe [L_eff]			+10% -10%
✖Impact Factor is used as a constant in calculation of average load on pipe.ⓘ Impact Factor [I_e]			+10% -10%
✖Load Coefficient is dependent on the length and width of the conduit cross section and the depth of the cover over.ⓘ Load Coefficient [C_t]			+10% -10%

✖Concentrated Wheel Load is single loads that act over a relatively small area.ⓘ Concentrated Wheel Load given Average Load on Pipe [P_wheel]

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Formula

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Concentrated Wheel Load given Average Load on Pipe

Formula

`"P"_{"wheel"} = ("W"_{"avg"}*"L"_{"eff"})/("I"_{"e"}*"C"_{"t"})`

Example

`"55.21978N"=("30.0N/m"*"50.25m")/("2.73"*"10.00")`

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Concentrated Wheel Load given Average Load on Pipe Solution

STEP 0: Pre-Calculation Summary

Formula Used

Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient)
P_wheel = (W_avg*L_eff)/(I_e*C_t)
This formula uses 5 Variables

Variables Used

Concentrated Wheel Load - (Measured in Newton) - Concentrated Wheel Load is single loads that act over a relatively small area.
Average Load on Pipe in Newton per Meter - (Measured in Newton per Meter) - Average Load on Pipe in Newton per Meter is the average of all the loads applied on the pipe due to different components considered in Environmental Engineering.
Effective Length of Pipe - (Measured in Meter) - Effective Length of Pipe is the length of pipe of the same size as the fitting that would give rise to the same pressure drop as the fitting.
Impact Factor - Impact Factor is used as a constant in calculation of average load on pipe.
Load Coefficient - Load Coefficient is dependent on the length and width of the conduit cross section and the depth of the cover over.

STEP 1: Convert Input(s) to Base Unit

Average Load on Pipe in Newton per Meter: 30 Newton per Meter --> 30 Newton per Meter No Conversion Required
Effective Length of Pipe: 50.25 Meter --> 50.25 Meter No Conversion Required
Impact Factor: 2.73 --> No Conversion Required
Load Coefficient: 10 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_wheel = (W_avg*L_eff)/(I_e*C_t) --> (30*50.25)/(2.73*10)

Evaluating ... ...

P_wheel = 55.2197802197802

STEP 3: Convert Result to Output's Unit

55.2197802197802 Newton --> No Conversion Required

FINAL ANSWER

55.2197802197802 ≈ 55.21978 Newton <-- Concentrated Wheel Load

(Calculation completed in 00.004 seconds)

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Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

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Meerut Institute of Engineering and Technology (MIET), Meerut

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< 19 Stresses Due to External Loads Calculators

Total Tension in Pipe with known Head of Water

Go Total Tension of Pipe in MN = ((Unit Weight of Liquid*Head of Liquid)*Cross-Sectional Area)+((Unit Weight of Liquid*Cross-Sectional Area*(Flow Velocity of Fluid)^2)/Acceleration Due To Gravity in Environment)

Total Tension in Pipe using Water Pressure

Go Total Tension of Pipe in MN = (Water Pressure*Cross-Sectional Area)+((Unit Weight Of Water in KN per Cubic Meter*Cross-Sectional Area*(Flow Velocity of Fluid)^2)/Acceleration Due To Gravity in Environment)

Compressive End Fibre Stress at Horizontal Diameter

Go Extreme Fibre Stress = ((3*Load on Buried Pipe per Unit Length*Diameter of Pipe in Centimeter)/(8*Thickness of Pipe^2)+(Load on Buried Pipe per Unit Length)/(2*Thickness of Pipe))

Diameter of Pipe given Compressive End Fibre Stress

Go Diameter of Pipe = (Extreme Fibre Stress-(Load on Buried Pipe per Unit Length)/(2*Thickness of Pipe))*((8*Thickness of Pipe^2)/(3*Load on Buried Pipe per Unit Length))

Diameter of Pipe given Tensile End Fibre Stress

Go Diameter of Pipe = (Extreme Fibre Stress+(Load on Buried Pipe per Unit Length)/(2*Thickness of Pipe))*((8*Thickness of Pipe^2)/(3*Load on Buried Pipe per Unit Length))

Load per meter Length of Pipe for Compressive End Fibre Stress

Go Load on Buried Pipe per Unit Length = Extreme Fibre Stress/((3*Diameter of Pipe)/(8*Thickness of Pipe^2)+(1)/(2*Thickness of Pipe))

Width of Trench for Load per meter Length of Pipe

Go Width of Trench = sqrt(Load on Buried Pipe per Unit Length/(Coefficient Dependent on Soil in Environmental*Unit Weight of Fill))

Concentrated Wheel Load given Average Load on Pipe

Go Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient)

Load coefficient using Average Load on Pipe

Go Load Coefficient = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Concentrated Wheel Load)

Impact factor using Average Load on Pipe

Go Impact Factor = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Load Coefficient*Concentrated Wheel Load)

Effective Length of Pipe using Average Load on Pipe

Go Effective Length of Pipe = (Impact Factor*Load Coefficient*Concentrated Wheel Load)/Average Load on Pipe in Newton per Meter

Average Load on Pipe due to Wheel Load

Go Average Load on Pipe in Newton per Meter = (Impact Factor*Load Coefficient*Concentrated Wheel Load)/Effective Length of Pipe

Thickness of Pipe given Maximum End Fibre Stress

Go Thickness of Pipe = sqrt((3*Load on Buried Pipe per Unit Length*Diameter of Pipe)/(8*Extreme Fibre Stress))

Constant which depend upon type of Soil for Load per meter Length of Pipe

Go Coefficient Dependent on Soil in Environmental = Load on Buried Pipe per Unit Length/(Unit Weight of Fill*(Width of Trench)^2)

Unit Weight of Backfill Material for Load per meter Length of Pipe

Go Unit Weight of Fill = Load on Buried Pipe per Unit Length/(Coefficient Dependent on Soil in Environmental*(Width of Trench)^2)

Load per meter Length of Pipe

Go Load on Buried Pipe per Unit Length = Coefficient Dependent on Soil in Environmental*Unit Weight of Fill*(Width of Trench)^2

Load per meter Length of Pipe for Maximum End Fibre Stress

Go Load on Buried Pipe per Unit Length = Extreme Fibre Stress/((3*Diameter of Pipe)/(8*Thickness of Pipe^2))

Diameter of Pipe for Maximum End Fibre Stress

Go Diameter of Pipe = Extreme Fibre Stress/((3*Load on Buried Pipe per Unit Length)/(8*Thickness of Pipe^2))

Maximum End Fibre Stress on Horizontal Point

Go Extreme Fibre Stress = (3*Load on Buried Pipe per Unit Length*Diameter of Pipe)/(8*Thickness of Pipe^2)

Concentrated Wheel Load given Average Load on Pipe Formula

Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient)
P_wheel = (W_avg*L_eff)/(I_e*C_t)

What is Concentrated Load?

A concentrated load is a force applied at a single point on a beam or structure. Beams are commonly used for structural support in homes, commercial buildings, and bridges. A beam must be designed to withstand forces and stress, while minimising weight, space requirements, and material cost.

How to Calculate Concentrated Wheel Load given Average Load on Pipe?

Concentrated Wheel Load given Average Load on Pipe calculator uses Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient) to calculate the Concentrated Wheel Load, The Concentrated Wheel Load given Average Load on Pipe is defined as the value of concentrated wheel load when we have prior information of other parameters used. Concentrated Wheel Load is denoted by P_wheel symbol.

How to calculate Concentrated Wheel Load given Average Load on Pipe using this online calculator? To use this online calculator for Concentrated Wheel Load given Average Load on Pipe, enter Average Load on Pipe in Newton per Meter (W_avg), Effective Length of Pipe (L_eff), Impact Factor (I_e) & Load Coefficient (C_t) and hit the calculate button. Here is how the Concentrated Wheel Load given Average Load on Pipe calculation can be explained with given input values -> 55.21978 = (30*50.25)/(2.73*10).

FAQ

What is Concentrated Wheel Load given Average Load on Pipe?

The Concentrated Wheel Load given Average Load on Pipe is defined as the value of concentrated wheel load when we have prior information of other parameters used and is represented as P_wheel = (W_avg*L_eff)/(I_e*C_t) or Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient). Average Load on Pipe in Newton per Meter is the average of all the loads applied on the pipe due to different components considered in Environmental Engineering, Effective Length of Pipe is the length of pipe of the same size as the fitting that would give rise to the same pressure drop as the fitting, Impact Factor is used as a constant in calculation of average load on pipe & Load Coefficient is dependent on the length and width of the conduit cross section and the depth of the cover over.

How to calculate Concentrated Wheel Load given Average Load on Pipe?

The Concentrated Wheel Load given Average Load on Pipe is defined as the value of concentrated wheel load when we have prior information of other parameters used is calculated using Concentrated Wheel Load = (Average Load on Pipe in Newton per Meter*Effective Length of Pipe)/(Impact Factor*Load Coefficient). To calculate Concentrated Wheel Load given Average Load on Pipe, you need Average Load on Pipe in Newton per Meter (W_avg), Effective Length of Pipe (L_eff), Impact Factor (I_e) & Load Coefficient (C_t). With our tool, you need to enter the respective value for Average Load on Pipe in Newton per Meter, Effective Length of Pipe, Impact Factor & Load Coefficient 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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