Effective Normal Stress given Upward Force due to Seepage Water Calculator

✖Normal Stress in Soil Mechanics is stress that occurs when a member is loaded by an axial force.ⓘ Normal Stress in Soil Mechanics [σ_n]			+10% -10%
✖Upward Force in Seepage Analysis is due to seepage water.ⓘ Upward Force in Seepage Analysis [F_u]			+10% -10%

✖Effective Normal Stress in Soil Mechanics is related to total stress and pore pressure.ⓘ Effective Normal Stress given Upward Force due to Seepage Water [σ^']

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Effective Normal Stress given Upward Force due to Seepage Water Solution

STEP 0: Pre-Calculation Summary

Formula Used

Effective Normal Stress in Soil Mechanics = Normal Stress in Soil Mechanics-Upward Force in Seepage Analysis
σ^' = σ_n-F_u
This formula uses 3 Variables

Variables Used

Effective Normal Stress in Soil Mechanics - (Measured in Pascal) - Effective Normal Stress in Soil Mechanics is related to total stress and pore pressure.
Normal Stress in Soil Mechanics - (Measured in Pascal) - Normal Stress in Soil Mechanics is stress that occurs when a member is loaded by an axial force.
Upward Force in Seepage Analysis - (Measured in Pascal) - Upward Force in Seepage Analysis is due to seepage water.

STEP 1: Convert Input(s) to Base Unit

Normal Stress in Soil Mechanics: 77.36 Kilonewton per Square Meter --> 77360 Pascal (Check conversion here)
Upward Force in Seepage Analysis: 52.89 Kilonewton per Square Meter --> 52890 Pascal (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

σ^' = σ_n-F_u --> 77360-52890

Evaluating ... ...

σ^' = 24470

STEP 3: Convert Result to Output's Unit

24470 Pascal -->24.47 Kilonewton per Square Meter (Check conversion here)

FINAL ANSWER

24.47 Kilonewton per Square Meter <-- Effective Normal Stress in Soil Mechanics

(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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< Steady State Seepage Analysis Along The Slopes Calculators

Inclined Length of Prism given Saturated Unit Weight

LaTeX Go Inclined Length of Prism = Weight of Prism in Soil Mechanics/(Saturated Unit Weight of Soil*Depth of Prism*cos((Angle of Inclination to Horizontal in Soil*pi)/180))

Weight of Soil Prism given Saturated Unit Weight

LaTeX Go Weight of Prism in Soil Mechanics = (Saturated Unit Weight of Soil*Depth of Prism*Inclined Length of Prism*cos((Angle of Inclination to Horizontal in Soil*pi)/180))

Vertical Stress on Prism given Saturated Unit Weight

LaTeX Go Vertical Stress at a Point in Kilopascal = (Saturated Unit Weight of Soil*Depth of Prism*cos((Angle of Inclination to Horizontal in Soil*pi)/180))

Normal Stress Component given Saturated Unit Weight

LaTeX Go Normal Stress in Soil Mechanics = (Saturated Unit Weight of Soil*Depth of Prism*(cos((Angle of Inclination to Horizontal in Soil*pi)/180))^2)

Effective Normal Stress given Upward Force due to Seepage Water Formula

LaTeX Go

Effective Normal Stress in Soil Mechanics = Normal Stress in Soil Mechanics-Upward Force in Seepage Analysis
σ^' = σ_n-F_u

What is Normal Stress?

A normal stress is a stress that occurs when a member is loaded by an axial force. The value of the normal force for any prismatic section is simply the force divided by the cross sectional area.

How to Calculate Effective Normal Stress given Upward Force due to Seepage Water?

Effective Normal Stress given Upward Force due to Seepage Water calculator uses Effective Normal Stress in Soil Mechanics = Normal Stress in Soil Mechanics-Upward Force in Seepage Analysis to calculate the Effective Normal Stress in Soil Mechanics, The Effective Normal Stress given Upward Force due to Seepage Water is defined as the value of effective normal stress when we have prior information of other parameters used. Effective Normal Stress in Soil Mechanics is denoted by σ^' symbol.

How to calculate Effective Normal Stress given Upward Force due to Seepage Water using this online calculator? To use this online calculator for Effective Normal Stress given Upward Force due to Seepage Water, enter Normal Stress in Soil Mechanics (σ_n) & Upward Force in Seepage Analysis (F_u) and hit the calculate button. Here is how the Effective Normal Stress given Upward Force due to Seepage Water calculation can be explained with given input values -> -0.01553 = 77360-52890.

FAQ

What is Effective Normal Stress given Upward Force due to Seepage Water?

The Effective Normal Stress given Upward Force due to Seepage Water is defined as the value of effective normal stress when we have prior information of other parameters used and is represented as σ^' = σ_n-F_u or Effective Normal Stress in Soil Mechanics = Normal Stress in Soil Mechanics-Upward Force in Seepage Analysis. Normal Stress in Soil Mechanics is stress that occurs when a member is loaded by an axial force & Upward Force in Seepage Analysis is due to seepage water.

How to calculate Effective Normal Stress given Upward Force due to Seepage Water?

The Effective Normal Stress given Upward Force due to Seepage Water is defined as the value of effective normal stress when we have prior information of other parameters used is calculated using Effective Normal Stress in Soil Mechanics = Normal Stress in Soil Mechanics-Upward Force in Seepage Analysis. To calculate Effective Normal Stress given Upward Force due to Seepage Water, you need Normal Stress in Soil Mechanics (σ_n) & Upward Force in Seepage Analysis (F_u). With our tool, you need to enter the respective value for Normal Stress in Soil Mechanics & Upward Force in Seepage Analysis 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 Effective Normal Stress in Soil Mechanics?

In this formula, Effective Normal Stress in Soil Mechanics uses Normal Stress in Soil Mechanics & Upward Force in Seepage Analysis. We can use 3 other way(s) to calculate the same, which is/are as follows -

Effective Normal Stress in Soil Mechanics = (Submerged Unit Weight in KN per Cubic Meter*Depth of Prism*(cos((Angle of Inclination to Horizontal in Soil*pi)/180))^2)
Effective Normal Stress in Soil Mechanics = Factor of Safety in Soil Mechanics/((tan((Angle of Internal Friction of Soil*pi)/180))/Shear Stress in Soil Mechanics)
Effective Normal Stress in Soil Mechanics = ((Saturated Unit Weight of Soil-Unit Weight of Water)*Depth of Prism*(cos((Angle of Inclination to Horizontal in Soil*pi)/180))^2)

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