Deflection due to Prestressing for Singly Harped Tendon Solution

STEP 0: Pre-Calculation Summary
Formula Used
Deflection due to Moments on Arch Dam = (Thrust Force*Span Length^3)/(48*Young's Modulus*Moment of Inertia in Prestress)
δ = (Ft*L^3)/(48*E*Ip)
This formula uses 5 Variables
Variables Used
Deflection due to Moments on Arch Dam - (Measured in Meter) - The Deflection due to Moments on Arch Dam is the degree to which a structural element is displaced under a load (due to its deformation).
Thrust Force - (Measured in Newton) - Thrust Force acting perpendicular to the job piece.
Span Length - (Measured in Meter) - Span Length is the end to end distance between any beam or slab.
Young's Modulus - (Measured in Pascal) - Young's Modulus is a mechanical property of linear elastic solid substances. It describes the relationship between longitudinal stress and longitudinal strain.
Moment of Inertia in Prestress - (Measured in Kilogram Square Meter) - Moment of Inertia in Prestress is the Moment of Inertia which is defined as the measure of the resistance of a body to angular acceleration about a given axis.
STEP 1: Convert Input(s) to Base Unit
Thrust Force: 311.6 Newton --> 311.6 Newton No Conversion Required
Span Length: 5 Meter --> 5 Meter No Conversion Required
Young's Modulus: 15 Pascal --> 15 Pascal No Conversion Required
Moment of Inertia in Prestress: 1.125 Kilogram Square Meter --> 1.125 Kilogram Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
δ = (Ft*L^3)/(48*E*Ip) --> (311.6*5^3)/(48*15*1.125)
Evaluating ... ...
δ = 48.0864197530864
STEP 3: Convert Result to Output's Unit
48.0864197530864 Meter --> No Conversion Required
FINAL ANSWER
48.0864197530864 48.08642 Meter <-- Deflection due to Moments on Arch Dam
(Calculation completed in 00.020 seconds)

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Deflection due to Prestressing Force Calculators

Young's Modulus given Deflection due to Prestressing for Parabolic Tendon
​ LaTeX ​ Go Young's Modulus = (5/384)*((Upward Thrust*Span Length^4)/(Deflection due to Moments on Arch Dam*Second Moment of Area))
Deflection due to Prestressing for Parabolic Tendon
​ LaTeX ​ Go Deflection due to Moments on Arch Dam = (5/384)*((Upward Thrust*Span Length^4)/(Young's Modulus*Second Moment of Area))
Uplift Thrust when Deflection due to Prestressing for Parabolic Tendon
​ LaTeX ​ Go Upward Thrust = (Deflection due to Moments on Arch Dam*384*Young's Modulus*Second Moment of Area)/(5*Span Length^4)
Flexural Rigidity given Deflection due to Prestressing for Parabolic Tendon
​ LaTeX ​ Go Flexural Rigidity = (5/384)*((Upward Thrust*Span Length^4)/Deflection due to Moments on Arch Dam)

Deflection due to Prestressing for Singly Harped Tendon Formula

​LaTeX ​Go
Deflection due to Moments on Arch Dam = (Thrust Force*Span Length^3)/(48*Young's Modulus*Moment of Inertia in Prestress)
δ = (Ft*L^3)/(48*E*Ip)

What is meant by Flexural Rigidity?

Flexural rigidity is defined as the force couple required to bend a fixed non-rigid structure by one unit of curvature.

How to Calculate Deflection due to Prestressing for Singly Harped Tendon?

Deflection due to Prestressing for Singly Harped Tendon calculator uses Deflection due to Moments on Arch Dam = (Thrust Force*Span Length^3)/(48*Young's Modulus*Moment of Inertia in Prestress) to calculate the Deflection due to Moments on Arch Dam, The Deflection due to Prestressing for Singly Harped Tendonthe is defined as the bending displacement caused by applied pre-tensioning forces. Deflection due to Moments on Arch Dam is denoted by δ symbol.

How to calculate Deflection due to Prestressing for Singly Harped Tendon using this online calculator? To use this online calculator for Deflection due to Prestressing for Singly Harped Tendon, enter Thrust Force (Ft), Span Length (L), Young's Modulus (E) & Moment of Inertia in Prestress (Ip) and hit the calculate button. Here is how the Deflection due to Prestressing for Singly Harped Tendon calculation can be explained with given input values -> 48.08642 = (311.6*5^3)/(48*15*1.125).

FAQ

What is Deflection due to Prestressing for Singly Harped Tendon?
The Deflection due to Prestressing for Singly Harped Tendonthe is defined as the bending displacement caused by applied pre-tensioning forces and is represented as δ = (Ft*L^3)/(48*E*Ip) or Deflection due to Moments on Arch Dam = (Thrust Force*Span Length^3)/(48*Young's Modulus*Moment of Inertia in Prestress). Thrust Force acting perpendicular to the job piece, Span Length is the end to end distance between any beam or slab, Young's Modulus is a mechanical property of linear elastic solid substances. It describes the relationship between longitudinal stress and longitudinal strain & Moment of Inertia in Prestress is the Moment of Inertia which is defined as the measure of the resistance of a body to angular acceleration about a given axis.
How to calculate Deflection due to Prestressing for Singly Harped Tendon?
The Deflection due to Prestressing for Singly Harped Tendonthe is defined as the bending displacement caused by applied pre-tensioning forces is calculated using Deflection due to Moments on Arch Dam = (Thrust Force*Span Length^3)/(48*Young's Modulus*Moment of Inertia in Prestress). To calculate Deflection due to Prestressing for Singly Harped Tendon, you need Thrust Force (Ft), Span Length (L), Young's Modulus (E) & Moment of Inertia in Prestress (Ip). With our tool, you need to enter the respective value for Thrust Force, Span Length, Young's Modulus & Moment of Inertia in Prestress 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 Deflection due to Moments on Arch Dam?
In this formula, Deflection due to Moments on Arch Dam uses Thrust Force, Span Length, Young's Modulus & Moment of Inertia in Prestress. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Deflection due to Moments on Arch Dam = (5/384)*((Upward Thrust*Span Length^4)/(Young's Modulus*Second Moment of Area))
  • Deflection due to Moments on Arch Dam = (Part of Span Length*(Part of Span Length^2)*Thrust Force*Span Length^3)/(24*Young's Modulus*Moment of Inertia in Prestress)
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