Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given Calculator

Category	Engineering ↺
Engineering	Civil ↺
Civil	Bridge and Suspension Cable ↺
Bridge-And-Suspension-Cable	Number of Connectors in Bridges ↺
Number-Of-Connectors-In-Bridges

✖Number of Connectors in Bridges is total number of joints.ⓘ Number of Connectors in Bridges [N]			+10% -10%
✖Reduction Factor is constant term used as factor for load calculation.ⓘ Reduction Factor [Φ]			+10% -10%
✖Ultimate Shear Connector Strength is maximum strength in shear.ⓘ Ultimate Shear Connector Strength [S_u]			+10% -10%
✖Force in Slab at maximum positive moments.ⓘ Force in Slab [P]			+10% -10%

✖Force in Slab at negative moment point is the force where maximum negative occurs.ⓘ Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given [P₃]

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Rithik Agrawal

National Institute of Technology Karnataka (NITK), Surathkal

Rithik Agrawal has created this Calculator and 300+ more calculators!

Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has verified this Calculator and 50+ more calculators!

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

Reduction Factor when Minimum Number of Connectors in Bridges is Given

Reduction Factor=(Force in Slab+Force in Slab at negative moment point)/(Ultimate Shear Connector Strength*Number of Connectors in Bridges) GO

Minimum Number of Connectors for Bridges

Number of Connectors in Bridges=(Force in Slab+Force in Slab at negative moment point)/(Reduction Factor*Ultimate Shear Connector Strength) GO

Force in Slab at Maximum Positive Moments when Minimum Number of Connectors for Bridges is Given

Force in Slab=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab at negative moment point GO

Reduction Factor when Number of Connectors in Bridges is Given

Reduction Factor=Force in Slab/(Number of Connectors in Bridges*Ultimate Shear Connector Strength) GO

Ultimate Shear Connector Strength when Number of Connectors in Bridges is Given

Ultimate Shear Connector Strength=Force in Slab/(Number of Connectors in Bridges*Reduction Factor) GO

Number of Connectors in Bridges

Number of Connectors in Bridges=Force in Slab/(Reduction Factor*Ultimate Shear Connector Strength) GO

Force in Slab when Number of Connectors in Bridges is Given

Force in Slab=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength GO

28-day Compressive Strength of Concrete when Force in Slab is Given

28 Day Compressive Strength of Concrete=Force in Slab/(0.85*Concrete Area) GO

Effective Concrete Area when Force in Slab is Given

Concrete Area=Force in Slab/(0.85*28 Day Compressive Strength of Concrete) GO

Steel Yield Strength when Total Area of Steel Section is Given

yield strength of steel=Force in Slab/Total Area of Steel Section GO

Total Area of Steel Section when Force in Slab is Given

Total Area of Steel Section=Force in Slab/Yield stress of steel GO

< 1 Other formulas that calculate the same Output

Force in Slab at Maximum Negative Moments when Reinforcing Steel Yield Strength is Given

Force in Slab at negative moment point=Area of Reinforcement*yield strength of steel GO

Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given Formula

Force in Slab at negative moment point=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab
P<sub>3</sub>=N*Φ*S<sub>u</sub>-P

More formulas

Number of Connectors in Bridges GO

Force in Slab when Number of Connectors in Bridges is Given GO

Reduction Factor when Number of Connectors in Bridges is Given GO

Ultimate Shear Connector Strength when Number of Connectors in Bridges is Given GO

Force in Slab when Total Area of Steel Section is Given GO

Total Area of Steel Section when Force in Slab is Given GO

Steel Yield Strength when Total Area of Steel Section is Given GO

Force in Slab when Effective Concrete Area is Given GO

Effective Concrete Area when Force in Slab is Given GO

28-day Compressive Strength of Concrete when Force in Slab is Given GO

Minimum Number of Connectors for Bridges GO

Force in Slab at Maximum Positive Moments when Minimum Number of Connectors for Bridges is Given GO

Force in Slab at Maximum Negative Moments when Reinforcing Steel Yield Strength is Given GO

Reduction Factor when Minimum Number of Connectors in Bridges is Given GO

Ultimate Shear Connector Strength when Minimum Number of Connectors in Bridges is Given GO

Area of Longitudinal Reinforcing when Force in Slab at Maximum Negative Moments is Given GO

Reinforcing Steel Yield Strength when Force in Slab at Maximum Negative Moments is Given GO

What is Two Way Slab ?

Two way slab is a slab supported by beams on all the four sides and the loads are carried by the supports along with both directions, it is known as two way slab. In two way slab, the ratio of longer span (l) to shorter span (b) is less than 2. In two way slabs, the load will be carried in both the directions.

How to Calculate Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given?

Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given calculator uses Force in Slab at negative moment point=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab to calculate the Force in Slab at negative moment point, The Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given formula is defined as force acting on slab at a point. Force in Slab at negative moment point and is denoted by P₃ symbol.

How to calculate Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given using this online calculator? To use this online calculator for Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given, enter Number of Connectors in Bridges (N), Reduction Factor (Φ), Ultimate Shear Connector Strength (S_u) and Force in Slab (P) and hit the calculate button. Here is how the Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given calculation can be explained with given input values -> 75 = 10*0.85*10000-10000.

FAQ

What is Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given?

The Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given formula is defined as force acting on slab at a point and is represented as P₃=N*Φ*S_u-P or Force in Slab at negative moment point=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab. Number of Connectors in Bridges is total number of joints, Reduction Factor is constant term used as factor for load calculation, Ultimate Shear Connector Strength is maximum strength in shear and Force in Slab at maximum positive moments.

How to calculate Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given?

The Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given formula is defined as force acting on slab at a point is calculated using Force in Slab at negative moment point=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab. To calculate Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given, you need Number of Connectors in Bridges (N), Reduction Factor (Φ), Ultimate Shear Connector Strength (S_u) and Force in Slab (P). With our tool, you need to enter the respective value for Number of Connectors in Bridges, Reduction Factor, Ultimate Shear Connector Strength and Force in Slab 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 Force in Slab at negative moment point?

In this formula, Force in Slab at negative moment point uses Number of Connectors in Bridges, Reduction Factor, Ultimate Shear Connector Strength and Force in Slab. We can use 1 other way(s) to calculate the same, which is/are as follows -

Force in Slab at negative moment point=Area of Reinforcement*yield strength of steel

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