Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
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Shikha Maurya
Indian Institute of Technology (IIT), Bombay
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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
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
Force in Slab at Maximum Negative Moments when Minimum Number of Connectors for Bridges is Given
Force in Slab at negative moment point=Number of Connectors in Bridges*Reduction Factor*Ultimate Shear Connector Strength-Force in Slab 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

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

Minimum Number of Connectors for Bridges Formula

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

A Shear connector is a steel projection provided on the top flange of steel composite bridge girders to provide necessary shear transfer between the steel girder and composite slab to enable composite action. The most widely used form of shear connector is the headed stud, or shear stud.

How to Calculate Minimum Number of Connectors for Bridges?

Minimum Number of Connectors for Bridges calculator uses Number of Connectors in Bridges=(Force in Slab+Force in Slab at negative moment point)/(Reduction Factor*Ultimate Shear Connector Strength) to calculate the Number of Connectors in Bridges, The Minimum Number of Connectors for Bridges formula is defined as limiting value for number of connector by which connector should be greater or equal to. Number of Connectors in Bridges and is denoted by N symbol.

How to calculate Minimum Number of Connectors for Bridges using this online calculator? To use this online calculator for Minimum Number of Connectors for Bridges, enter Force in Slab (P), Force in Slab at negative moment point (P3), Reduction Factor (Φ) and Ultimate Shear Connector Strength (Su) and hit the calculate button. Here is how the Minimum Number of Connectors for Bridges calculation can be explained with given input values -> 2.352941 = (10000+10000)/(0.85*10000).

FAQ

What is Minimum Number of Connectors for Bridges?
The Minimum Number of Connectors for Bridges formula is defined as limiting value for number of connector by which connector should be greater or equal to and is represented as N=(P+P3)/(Φ*Su) or Number of Connectors in Bridges=(Force in Slab+Force in Slab at negative moment point)/(Reduction Factor*Ultimate Shear Connector Strength). Force in Slab at maximum positive moments, Force in Slab at negative moment point is the force where maximum negative occurs, Reduction Factor is constant term used as factor for load calculation and Ultimate Shear Connector Strength is maximum strength in shear.
How to calculate Minimum Number of Connectors for Bridges?
The Minimum Number of Connectors for Bridges formula is defined as limiting value for number of connector by which connector should be greater or equal to is calculated using Number of Connectors in Bridges=(Force in Slab+Force in Slab at negative moment point)/(Reduction Factor*Ultimate Shear Connector Strength). To calculate Minimum Number of Connectors for Bridges, you need Force in Slab (P), Force in Slab at negative moment point (P3), Reduction Factor (Φ) and Ultimate Shear Connector Strength (Su). With our tool, you need to enter the respective value for Force in Slab, Force in Slab at negative moment point, Reduction Factor and Ultimate Shear Connector Strength 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 Number of Connectors in Bridges?
In this formula, Number of Connectors in Bridges uses Force in Slab, Force in Slab at negative moment point, Reduction Factor and Ultimate Shear Connector Strength. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Number of Connectors in Bridges=Force in Slab/(Reduction Factor*Ultimate Shear Connector Strength)
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