Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given Calculator

Category	Engineering ↺

✖Total Shear is defined as the total shear force acting on the body.ⓘ Total Shear [V]			+10% -10%
✖Beam Width is defined as the shortest/least measurement of the beam.ⓘ Beam Width [b]			+10% -10%
✖Shearing Unit Stress is defined as the total force acting on a unit area of the body .ⓘ Shearing Unit Stress [v]			+10% -10%

✖Depth of the Beam is the overall depth of the cross section of the beam perpendicular to the axis of the beam.ⓘ Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given [D]

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Kethavath Srinath

Osmania University (OU), Hyderabad

Kethavath Srinath has created this Calculator and 300+ more calculators!

Rudrani Tidke

Cummins College of Engineering for Women (CCEW), Pune

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< 11 Other formulas that you can solve using the same Inputs

Moment of Inertia of Transformed Beam Section

Moment of Inertia Transformed Beam=(0.5*Beam Width*(Distance Neutral to face of Concrete ^2))+2*(Elasticity Ratio of Steel to Concrete-1)*Area of Compressive Reinforcement*(Distance Neutral to Compressive Reinforcing Steel^2)+Elasticity Ratio of Steel to Concrete*(Distance Neutral to Tensile Reinforcing Steel^2)*Tensile Reinforcement Area GO

Effective Depth when Cross-Sectional Area of Web Reinforcement is Given

Depth of the Beam=(Total Shear-Shear that Concrete Could Carry)*Spacing of Stirrups/(Allowable Unit Stress in Web Reinforcement*Cross Sectional Area of Web Reinforcement) GO

Cross-Sectional Area of Web Reinforcement

Cross Sectional Area of Web Reinforcement=(Total Shear-Shear that Concrete Could Carry)*Spacing of Stirrups/(Allowable Unit Stress in Web Reinforcement*Depth of the Beam) GO

Shear Carried by Concrete when Cross-Sectional Area of Web Reinforcement is Given

Shear that Concrete Could Carry=Total Shear-(Cross Sectional Area of Web Reinforcement*Allowable Unit Stress in Web Reinforcement*Depth of the Beam/Spacing of Stirrups) GO

Depth of Beam when Stress in Concrete is Given

Depth of the Beam=sqrt(2*Bending moment/(Ratio k*Ratio j*Beam Width*Stress)) GO

Bending Moment when Stress in Concrete is Given

Bending moment=(Stress*Ratio k*Ratio j*Beam Width*Depth of the Beam^2)/2 GO

Stress in Concrete

Stress=2*Bending moment/(Ratio k*Ratio j*Beam Width*Depth of the Beam^2) GO

Stress in Steel When Cross-Sectional Reinforcing Tensile Area to Beam Area Ratio is Given

Stress=Bending moment/(Ratio p*Ratio j*Beam Width*Depth of the Beam^2) GO

Width of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given

Beam Width=Total Shear/(Depth of the Beam*Shearing Unit Stress) GO

Shearing Unit Stress in a Reinforced Concrete Beam

Shearing Unit Stress=Total Shear/(Beam Width*Depth of the Beam) GO

Total Shear when Shearing Unit Stress in a Reinforced Concrete Beam is Given

Total Shear=Shearing Unit Stress*Beam Width*Depth of the Beam GO

< 2 Other formulas that calculate the same Output

Effective Depth when Cross-Sectional Area of Web Reinforcement is Given

Depth of the Beam=(Total Shear-Shear that Concrete Could Carry)*Spacing of Stirrups/(Allowable Unit Stress in Web Reinforcement*Cross Sectional Area of Web Reinforcement) GO

Depth of Beam when Stress in Concrete is Given

Depth of the Beam=sqrt(2*Bending moment/(Ratio k*Ratio j*Beam Width*Stress)) GO

Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given Formula

Depth of the Beam=Total Shear/(Beam Width*Shearing Unit Stress)
D=V/(b*v)

More formulas

Shearing Unit Stress in a Reinforced Concrete Beam GO

Total Shear when Shearing Unit Stress in a Reinforced Concrete Beam is Given GO

Width of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given GO

Cross-Sectional Area of Web Reinforcement GO

Total Shear when Cross-Sectional Area of Web Reinforcement is Given GO

Shear Carried by Concrete when Cross-Sectional Area of Web Reinforcement is Given GO

Effective Depth when Cross-Sectional Area of Web Reinforcement is Given GO

Stirrups Spacing when Cross-Sectional Area of Web Reinforcement is Given GO

Define a Beam?

In building construction, a beam is a horizontal member spanning an opening and carrying a load that may be a brick or stone wall above the opening, in which case the beam is often called a lintel (see post-and-lintel system).

How to Calculate Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given?

Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given calculator uses Depth of the Beam=Total Shear/(Beam Width*Shearing Unit Stress) to calculate the Depth of the Beam, The Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given formula is defined as the distance between extreme compressive concrete fibre to the centroid of tension reinforcement in section under flexural condition. . Depth of the Beam and is denoted by D symbol.

How to calculate Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given using this online calculator? To use this online calculator for Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given, enter Total Shear (V), Beam Width (b) and Shearing Unit Stress (v) and hit the calculate button. Here is how the Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given calculation can be explained with given input values -> 0.003937 = 100/(0.01*100000000).

FAQ

What is Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given?

The Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given formula is defined as the distance between extreme compressive concrete fibre to the centroid of tension reinforcement in section under flexural condition. and is represented as D=V/(b*v) or Depth of the Beam=Total Shear/(Beam Width*Shearing Unit Stress). Total Shear is defined as the total shear force acting on the body, Beam Width is defined as the shortest/least measurement of the beam and Shearing Unit Stress is defined as the total force acting on a unit area of the body .

How to calculate Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given?

The Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given formula is defined as the distance between extreme compressive concrete fibre to the centroid of tension reinforcement in section under flexural condition. is calculated using Depth of the Beam=Total Shear/(Beam Width*Shearing Unit Stress). To calculate Effective Depth of Beam when Shearing Unit Stress in a Reinforced Concrete Beam is Given, you need Total Shear (V), Beam Width (b) and Shearing Unit Stress (v). With our tool, you need to enter the respective value for Total Shear, Beam Width and Shearing Unit Stress 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 Depth of the Beam?

In this formula, Depth of the Beam uses Total Shear, Beam Width and Shearing Unit Stress. We can use 2 other way(s) to calculate the same, which is/are as follows -

Depth of the Beam=sqrt(2*Bending moment/(Ratio k*Ratio j*Beam Width*Stress))
Depth of the Beam=(Total Shear-Shear that Concrete Could Carry)*Spacing of Stirrups/(Allowable Unit Stress in Web Reinforcement*Cross Sectional Area of Web Reinforcement)

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