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Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Formula

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Force in Slab at negative moment point is the force where maximum negative occurs. Check FAQs

P 3 = N \cdot Φ \cdot S ultimate - P on slab

P₃ - Force in Slab at Negative Moment Point?N - No of Connector in Bridge?Φ - Reduction Factor?S_ultimate - Ultimate Shear Connector Stress?P_{on slab} - Slab Force?

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Example

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Here is how the Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges equation looks like with Values.

Here is how the Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges equation looks like with Units.

Here is how the Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges equation looks like.

10 = 15 \cdot 0.85 \cdot 20 - 245

10kN = 15 \cdot 0.85 \cdot 20kN - 245kN

10 = 15 \cdot 0.85 \cdot 20 - 245

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Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Solution

Follow our step by step solution on how to calculate Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges?

FIRST Step Consider the formula

P 3 = N \cdot Φ \cdot S ultimate - P on slab

Next Step Substitute values of Variables

∴

P 3 = 15 \cdot 0.85 \cdot 20kN - 245kN

Next Step Convert Units

∴

P 3 = 15 \cdot 0.85 \cdot 20000N - 245000N

Next Step Prepare to Evaluate

∴

P 3 = 15 \cdot 0.85 \cdot 20000 - 245000

Next Step Evaluate

∴

P 3 = 10000N

LAST Step Convert to Output's Unit

∴

P 3 = 10kN

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Formula Elements

Variables

Force in Slab at Negative Moment Point

Force in Slab at negative moment point is the force where maximum negative occurs.

Symbol: P₃

Measurement: ForceUnit: kN

Note: Value can be positive or negative.

Formulas to find Force in Slab at Negative Moment Point

No of Connector in Bridge

No of Connector in Bridge is total number of joints.

Symbol: N

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find No of Connector in Bridge

Reduction Factor

Reduction Factor is constant term used as factor for load calculation.

Symbol: Φ

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Reduction Factor

Ultimate Shear Connector Stress

Ultimate Shear Connector Stress is the maximum strength in shear.

Symbol: S_ultimate

Measurement: ForceUnit: kN

Note: Value can be positive or negative.

Formulas to find Ultimate Shear Connector Stress

Slab Force

Slab Force at maximum positive moments.

Symbol: P_{on slab}

Measurement: ForceUnit: kN

Note: Value can be positive or negative.

Formulas to find Slab Force

Other formulas in Number of Connectors in Bridges category

Go Number of Connectors in Bridges

N = \frac{P on slab}{Φ \cdot S ultimate}

Go Force in Slab given Number of Connectors in Bridges

P on slab = N \cdot Φ \cdot S ultimate

Go Reduction Factor given Number of Connectors in Bridges

Φ = \frac{P on slab}{N \cdot S ultimate}

Go Ultimate Shear Connector Strength given Number of Connectors in Bridges

S ultimate = \frac{P on slab}{N \cdot Φ}

How to Evaluate Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges?

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges evaluator uses Force in Slab at Negative Moment Point = No of Connector in Bridge*Reduction Factor*Ultimate Shear Connector Stress-Slab Force to evaluate the Force in Slab at Negative Moment Point, The Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges formula is defined as the force acting on the slab at a point. Force in Slab at Negative Moment Point is denoted by P₃ symbol.

How to evaluate Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges using this online evaluator? To use this online evaluator for Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges, enter No of Connector in Bridge (N), Reduction Factor (Φ), Ultimate Shear Connector Stress (S_ultimate) & Slab Force (P_{on slab}) and hit the calculate button.

FAQs on Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges

What is the formula to find Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges?

The formula of Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges is expressed as Force in Slab at Negative Moment Point = No of Connector in Bridge*Reduction Factor*Ultimate Shear Connector Stress-Slab Force. Here is an example- 0.01 = 15*0.85*20000-245000.

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

With No of Connector in Bridge (N), Reduction Factor (Φ), Ultimate Shear Connector Stress (S_ultimate) & Slab Force (P_{on slab}) we can find Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges using the formula - Force in Slab at Negative Moment Point = No of Connector in Bridge*Reduction Factor*Ultimate Shear Connector Stress-Slab Force.

Can the Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges be negative?

Yes, the Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges, measured in Force can be negative.

Which unit is used to measure Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges?

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges is usually measured using the Kilonewton[kN] for Force. Newton[kN], Exanewton[kN], Meganewton[kN] are the few other units in which Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges can be measured.

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Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Formula

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Example

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Solution

Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges Formula Elements

Other formulas in Number of Connectors in Bridges category

How to Evaluate Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges?

FAQs on Force in Slab at Maximum Negative Moments given Minimum Number of Connectors for Bridges

Variable Name