Total Tension in Pipe using Water Pressure Calculator

✖Water Pressure is a force that makes a flow of water strong or weak.ⓘ Water Pressure [P_water]			+10% -10%
✖Cross-Sectional Area is the area of a two-dimensional shape that is obtained when a three-dimensional shape is sliced perpendicular to some specified axis at a point.ⓘ Cross-Sectional Area [A_cs]			+10% -10%
✖Unit Weight of Water in KN per Cubic Meter is the weight of water per unit volume of water.ⓘ Unit Weight of Water in KN per Cubic Meter [γ_water]			+10% -10%
✖Flow Velocity of Fluid gives the velocity of an element of fluid at a position and time.ⓘ Flow Velocity of Fluid [V_w]			+10% -10%
✖Acceleration due to Gravity in Environment is the acceleration gained by an object due to gravitational force.ⓘ Acceleration due to Gravity in Environment [g]			+10% -10%

✖Total Tension of Pipe in MN is defined as the force that tries to elongate a pipe.ⓘ Total Tension in Pipe using Water Pressure [T_mn]

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Total Tension in Pipe using Water Pressure Solution

STEP 0: Pre-Calculation Summary

Formula Used

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)
T_mn = (P_water*A_cs)+((γ_water*A_cs*(V_w)^2)/g)
This formula uses 6 Variables

Variables Used

Total Tension of Pipe in MN - (Measured in Newton) - Total Tension of Pipe in MN is defined as the force that tries to elongate a pipe.
Water Pressure - (Measured in Pascal) - Water Pressure is a force that makes a flow of water strong or weak.
Cross-Sectional Area - (Measured in Square Meter) - Cross-Sectional Area is the area of a two-dimensional shape that is obtained when a three-dimensional shape is sliced perpendicular to some specified axis at a point.
Unit Weight of Water in KN per Cubic Meter - (Measured in Newton per Cubic Meter) - Unit Weight of Water in KN per Cubic Meter is the weight of water per unit volume of water.
Flow Velocity of Fluid - (Measured in Meter per Second) - Flow Velocity of Fluid gives the velocity of an element of fluid at a position and time.
Acceleration due to Gravity in Environment - (Measured in Meter per Square Second) - Acceleration due to Gravity in Environment is the acceleration gained by an object due to gravitational force.

STEP 1: Convert Input(s) to Base Unit

Water Pressure: 5.5 Newton per Square Meter --> 5.5 Pascal (Check conversion here)
Cross-Sectional Area: 13 Square Meter --> 13 Square Meter No Conversion Required
Unit Weight of Water in KN per Cubic Meter: 9.81 Kilonewton per Cubic Meter --> 9810 Newton per Cubic Meter (Check conversion here)
Flow Velocity of Fluid: 13.47 Meter per Second --> 13.47 Meter per Second No Conversion Required
Acceleration due to Gravity in Environment: 9.8 Meter per Square Second --> 9.8 Meter per Square Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_mn = (P_water*A_cs)+((γ_water*A_cs*(V_w)^2)/g) --> (5.5*13)+((9810*13*(13.47)^2)/9.8)

Evaluating ... ...

T_mn = 2361210.06908163

STEP 3: Convert Result to Output's Unit

2361210.06908163 Newton -->2.36121006908163 Meganewton (Check conversion here)

FINAL ANSWER

2.36121006908163 ≈ 2.36121 Meganewton <-- Total Tension of Pipe in MN

(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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< Stresses Due to External Loads Calculators

Width of Trench for Load per Meter Length of Pipe

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

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

LaTeX 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

LaTeX 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

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

Total Tension in Pipe using Water Pressure Formula

LaTeX Go

What is Tensile Stress?

Tensile stress can be defined as the magnitude of force applied along an elastic rod, which is divided by the cross-sectional area of the rod in a direction perpendicular to the applied force.

How to Calculate Total Tension in Pipe using Water Pressure?

Total Tension in Pipe using Water Pressure calculator uses 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) to calculate the Total Tension of Pipe in MN, The Total Tension in Pipe using Water Pressure formula is defined as the value of the force that tries to elongate a pipe when we have prior information of water pressure. Total Tension of Pipe in MN is denoted by T_mn symbol.

How to calculate Total Tension in Pipe using Water Pressure using this online calculator? To use this online calculator for Total Tension in Pipe using Water Pressure, enter Water Pressure (P_water), Cross-Sectional Area (A_cs), Unit Weight of Water in KN per Cubic Meter (γ_water), Flow Velocity of Fluid (V_w) & Acceleration due to Gravity in Environment (g) and hit the calculate button. Here is how the Total Tension in Pipe using Water Pressure calculation can be explained with given input values -> 0.021676 = (5.5*13)+((9810*13*(13.47)^2)/9.8).

FAQ

What is Total Tension in Pipe using Water Pressure?

The Total Tension in Pipe using Water Pressure formula is defined as the value of the force that tries to elongate a pipe when we have prior information of water pressure and is represented as T_mn = (P_water*A_cs)+((γ_water*A_cs*(V_w)^2)/g) or 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). Water Pressure is a force that makes a flow of water strong or weak, Cross-Sectional Area is the area of a two-dimensional shape that is obtained when a three-dimensional shape is sliced perpendicular to some specified axis at a point, Unit Weight of Water in KN per Cubic Meter is the weight of water per unit volume of water, Flow Velocity of Fluid gives the velocity of an element of fluid at a position and time & Acceleration due to Gravity in Environment is the acceleration gained by an object due to gravitational force.

How to calculate Total Tension in Pipe using Water Pressure?

The Total Tension in Pipe using Water Pressure formula is defined as the value of the force that tries to elongate a pipe when we have prior information of water pressure is calculated using 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). To calculate Total Tension in Pipe using Water Pressure, you need Water Pressure (P_water), Cross-Sectional Area (A_cs), Unit Weight of Water in KN per Cubic Meter (γ_water), Flow Velocity of Fluid (V_w) & Acceleration due to Gravity in Environment (g). With our tool, you need to enter the respective value for Water Pressure, Cross-Sectional Area, Unit Weight of Water in KN per Cubic Meter, Flow Velocity of Fluid & Acceleration due to Gravity in Environment 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 Total Tension of Pipe in MN?

In this formula, Total Tension of Pipe in MN uses Water Pressure, Cross-Sectional Area, Unit Weight of Water in KN per Cubic Meter, Flow Velocity of Fluid & Acceleration due to Gravity in Environment. We can use 1 other way(s) to calculate the same, which is/are as follows -

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

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