Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances Solution

STEP 0: Pre-Calculation Summary
Formula Used
Excess Shear given Stirrup Leg Area for Bars Bent = (Stirrup Area*Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance*(sin(Angle at which Stirrup is Inclined)+cos(Angle at which Stirrup is Inclined)))/(Stirrup Spacing)
V'LAB = (Av*fv*d'*(sin(α)+cos(α)))/(s)
This formula uses 2 Functions, 6 Variables
Functions Used
sin - Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse., sin(Angle)
cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
Variables Used
Excess Shear given Stirrup Leg Area for Bars Bent - (Measured in Pascal) - Excess Shear given Stirrup Leg Area for Bars Bent is a measure that can be evaluated numerically and can be used in an assessment of the possible magnitude and relative likelihood of seismic activity.
Stirrup Area - (Measured in Square Meter) - Stirrup Area is the total cross-sectional area of the stirrup bars used.
Allowable Stress in Stirrup Steel - (Measured in Pascal) - Allowable stress in stirrup steel is 55% of those for ultimate strength design.
Compression to Centroid Reinforcement Distance - (Measured in Meter) - Compression to Centroid Reinforcement Distance is the distance from extreme compression surface to the centroid of compression reinforcement.
Angle at which Stirrup is Inclined - (Measured in Radian) - Angle at which Stirrup is Inclined series constitutes bars that are bent up at different distances from the support or when the stirrup is inclined.
Stirrup Spacing - (Measured in Meter) - Stirrup Spacing is the approximate minimum spacing between two bars in a section.
STEP 1: Convert Input(s) to Base Unit
Stirrup Area: 500 Square Millimeter --> 0.0005 Square Meter (Check conversion ​here)
Allowable Stress in Stirrup Steel: 35 Megapascal --> 35000000 Pascal (Check conversion ​here)
Compression to Centroid Reinforcement Distance: 10.1 Millimeter --> 0.0101 Meter (Check conversion ​here)
Angle at which Stirrup is Inclined: 30 Degree --> 0.5235987755982 Radian (Check conversion ​here)
Stirrup Spacing: 50.1 Millimeter --> 0.0501 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
V'LAB = (Av*fv*d'*(sin(α)+cos(α)))/(s) --> (0.0005*35000000*0.0101*(sin(0.5235987755982)+cos(0.5235987755982)))/(0.0501)
Evaluating ... ...
V'LAB = 4819.26127981835
STEP 3: Convert Result to Output's Unit
4819.26127981835 Pascal -->4819.26127981835 Newton per Square Meter (Check conversion ​here)
FINAL ANSWER
4819.26127981835 4819.261 Newton per Square Meter <-- Excess Shear given Stirrup Leg Area for Bars Bent
(Calculation completed in 00.020 seconds)

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Created by Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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Allowable Shear Calculators

Area Required in Legs of Vertical Stirrup
​ LaTeX ​ Go Stirrup Area = (Excess Shear*Stirrup Spacing)/(Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance)
Distance from Extreme Compression to Centroid given Nominal Unit Shear Stress
​ LaTeX ​ Go Compression to Centroid Reinforcement Distance = Total Shear/(Beam Width for Nominal Shear*Nominal Shear Stress)
Nominal Unit Shear Stress
​ LaTeX ​ Go Nominal Shear Stress = Total Shear/(Beam Width for Nominal Shear*Compression to Centroid Reinforcement Distance)
Shear given Nominal Unit Shear Stress
​ LaTeX ​ Go Total Shear = Beam Width for Nominal Shear*Compression to Centroid Reinforcement Distance*Nominal Shear Stress

Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances Formula

​LaTeX ​Go
Excess Shear given Stirrup Leg Area for Bars Bent = (Stirrup Area*Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance*(sin(Angle at which Stirrup is Inclined)+cos(Angle at which Stirrup is Inclined)))/(Stirrup Spacing)
V'LAB = (Av*fv*d'*(sin(α)+cos(α)))/(s)

What is Stirrup?

The Stirrup is a closed loop of the reinforcement bar. Its main purpose is to hold the reinforcement bars together in an RCC structure.

What is Vertical Stirrup?

The vertical stirrup is a steel bar that is placed around the tensile reinforcement at suitable spacing along the length of the beam.

How to Calculate Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances?

Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances calculator uses Excess Shear given Stirrup Leg Area for Bars Bent = (Stirrup Area*Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance*(sin(Angle at which Stirrup is Inclined)+cos(Angle at which Stirrup is Inclined)))/(Stirrup Spacing) to calculate the Excess Shear given Stirrup Leg Area for Bars Bent, The Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances formula is defined as the shear which is present in excess. It is also calculated by ( V'= V - vcbd). In order to resist this excess shear, stirrups and bent up bars are used. Excess Shear given Stirrup Leg Area for Bars Bent is denoted by V'LAB symbol.

How to calculate Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances using this online calculator? To use this online calculator for Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances, enter Stirrup Area (Av), Allowable Stress in Stirrup Steel (fv), Compression to Centroid Reinforcement Distance (d'), Angle at which Stirrup is Inclined (α) & Stirrup Spacing (s) and hit the calculate button. Here is how the Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances calculation can be explained with given input values -> 4771.546 = (0.0005*35000000*0.0101*(sin(0.5235987755982)+cos(0.5235987755982)))/(0.0501).

FAQ

What is Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances?
The Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances formula is defined as the shear which is present in excess. It is also calculated by ( V'= V - vcbd). In order to resist this excess shear, stirrups and bent up bars are used and is represented as V'LAB = (Av*fv*d'*(sin(α)+cos(α)))/(s) or Excess Shear given Stirrup Leg Area for Bars Bent = (Stirrup Area*Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance*(sin(Angle at which Stirrup is Inclined)+cos(Angle at which Stirrup is Inclined)))/(Stirrup Spacing). Stirrup Area is the total cross-sectional area of the stirrup bars used, Allowable stress in stirrup steel is 55% of those for ultimate strength design, Compression to Centroid Reinforcement Distance is the distance from extreme compression surface to the centroid of compression reinforcement, Angle at which Stirrup is Inclined series constitutes bars that are bent up at different distances from the support or when the stirrup is inclined & Stirrup Spacing is the approximate minimum spacing between two bars in a section.
How to calculate Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances?
The Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances formula is defined as the shear which is present in excess. It is also calculated by ( V'= V - vcbd). In order to resist this excess shear, stirrups and bent up bars are used is calculated using Excess Shear given Stirrup Leg Area for Bars Bent = (Stirrup Area*Allowable Stress in Stirrup Steel*Compression to Centroid Reinforcement Distance*(sin(Angle at which Stirrup is Inclined)+cos(Angle at which Stirrup is Inclined)))/(Stirrup Spacing). To calculate Excess Shear given Stirrup Leg Area for Group of Bars Bent up Different Distances, you need Stirrup Area (Av), Allowable Stress in Stirrup Steel (fv), Compression to Centroid Reinforcement Distance (d'), Angle at which Stirrup is Inclined (α) & Stirrup Spacing (s). With our tool, you need to enter the respective value for Stirrup Area, Allowable Stress in Stirrup Steel, Compression to Centroid Reinforcement Distance, Angle at which Stirrup is Inclined & Stirrup Spacing 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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