Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has created this Calculator and 500+ more calculators!
Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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9 Other formulas that you can solve using the same Inputs

28-Day Concrete Compressive Strength when Axial Capacity of Wall is Given
28 Day Compressive Strength of Concrete=(axial capacity)/(0.55*strength reduction factor for bearing walls*Gross area of column*(1-((effective length factor*Distance between Supports)/(32*Overall thickness of wall))^2)) GO
Wall Section Gross Area when Axial Capacity of Wall is Given
Gross area of column=(axial capacity)/(0.55*strength reduction factor for bearing walls*28 Day Compressive Strength of Concrete*(1-((effective length factor*Distance between Supports)/(32*Overall thickness of wall))^2)) GO
Axial Capacity of Wall
axial capacity=0.55*strength reduction factor for bearing walls*28 Day Compressive Strength of Concrete*Gross area of column*(1-((effective length factor*Distance between Supports)/(32*Overall thickness of wall))^2) GO
Wall Overall Thickness when Nominal Shear Stress is Given
Overall thickness of wall=(Total design shear force/(Capacity reduction factor*0.8*Nominal shear stress*Horizontal length of wall)) GO
Wall Horizontal Length when Nominal Shear Stress is Given
Horizontal length of wall=(Total design shear force/(0.8*Overall thickness of wall*Capacity reduction factor*Nominal shear stress)) GO
Nominal Shear Stress
Nominal shear stress=(Total design shear force/(0.8*Capacity reduction factor*Overall thickness of wall*Horizontal length of wall)) GO
Total Design Shear Force when Nominal Shear Stress is Given
Total design shear force=Capacity reduction factor*Nominal shear stress*Overall thickness of wall*0.8*Horizontal length of wall GO
Maximum Shear Strength
Shear strength=(10*Overall thickness of wall*0.8*Horizontal length of wall*(Characteristic compressive strength )^(1/2)) GO
Minimum Horizontal Reinforcement
Horizontal reinforcement=(0.0025+0.5*(2.5-(Total height of wall/Horizontal length of wall))) GO

Concrete Strength when Shear Force is Given Formula

Characteristic compressive strength =((1/(3.3*0.8*Horizontal length of wall*Overall thickness of wall))*(Shear force+((Tension force*0.8*Horizontal length of wall)/(4*Horizontal length of wall))))^2
fck=((1/(3.3*0.8*l<sub>w</sub>*h))*(V<sub>c</sub>+((N<sub>u</sub>*0.8*l<sub>w</sub>)/(4*l<sub>w</sub>))))^2
More formulas
Nominal Shear Stress GO
Total Design Shear Force when Nominal Shear Stress is Given GO
Wall Overall Thickness when Nominal Shear Stress is Given GO
Wall Horizontal Length when Nominal Shear Stress is Given GO
Minimum Horizontal Reinforcement GO
Maximum Shear Strength GO

What is characteristics compressive strength ?

The characteristic strength is defined as the strength of the concrete below which not more than 5% of the test results are expected to fall. For design purposes, this compressive strength value is restricted by dividing with a factor of safety, whose value depends on the design philosophy used.

How to Calculate Concrete Strength when Shear Force is Given?

Concrete Strength when Shear Force is Given calculator uses Characteristic compressive strength =((1/(3.3*0.8*Horizontal length of wall*Overall thickness of wall))*(Shear force+((Tension force*0.8*Horizontal length of wall)/(4*Horizontal length of wall))))^2 to calculate the Characteristic compressive strength , The Concrete Strength when Shear Force is Given formula is defined as strength of concrete under which 5 percent of test results fall. Characteristic compressive strength and is denoted by fck symbol.

How to calculate Concrete Strength when Shear Force is Given using this online calculator? To use this online calculator for Concrete Strength when Shear Force is Given, enter Horizontal length of wall (lw), Overall thickness of wall (h), Shear force (Vc) and Tension force (Nu) and hit the calculate button. Here is how the Concrete Strength when Shear Force is Given calculation can be explained with given input values -> 4.823E-7 = ((1/(3.3*0.8*3*2))*(10+((5*0.8*3)/(4*3))))^2.

FAQ

What is Concrete Strength when Shear Force is Given?
The Concrete Strength when Shear Force is Given formula is defined as strength of concrete under which 5 percent of test results fall and is represented as fck=((1/(3.3*0.8*lw*h))*(Vc+((Nu*0.8*lw)/(4*lw))))^2 or Characteristic compressive strength =((1/(3.3*0.8*Horizontal length of wall*Overall thickness of wall))*(Shear force+((Tension force*0.8*Horizontal length of wall)/(4*Horizontal length of wall))))^2. Horizontal length of wall is the length in horizontal direction, Overall thickness of wall quantify about wall thickness, Shear force is the force which act tangentially on the body and Tension force is a pulling force transmitted axially from the member.
How to calculate Concrete Strength when Shear Force is Given?
The Concrete Strength when Shear Force is Given formula is defined as strength of concrete under which 5 percent of test results fall is calculated using Characteristic compressive strength =((1/(3.3*0.8*Horizontal length of wall*Overall thickness of wall))*(Shear force+((Tension force*0.8*Horizontal length of wall)/(4*Horizontal length of wall))))^2. To calculate Concrete Strength when Shear Force is Given, you need Horizontal length of wall (lw), Overall thickness of wall (h), Shear force (Vc) and Tension force (Nu). With our tool, you need to enter the respective value for Horizontal length of wall, Overall thickness of wall, Shear force and Tension force 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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