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Total Weight of Vessel given Maximum Compressive Stress Formula

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Total Weight of Vessel with Attachment widely depends on its size, material, and function. Check FAQs

ΣW = (f concrete - (\frac{M s}{Z})) \cdot A

ΣW - Total Weight of Vessel?f_concrete - Maximum Compressive Stress of Concrete?M_s - Maximum Seismic Moment?Z - Section Modulus of Area A?A - Area between Bearing Plate & Concrete Foundation?

Total Weight of Vessel given Maximum Compressive Stress Example

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Here is how the Total Weight of Vessel given Maximum Compressive Stress equation looks like with Values.

Here is how the Total Weight of Vessel given Maximum Compressive Stress equation looks like with Units.

Here is how the Total Weight of Vessel given Maximum Compressive Stress equation looks like.

161290.592 = (1.58 - (\frac{4.4E+6}{1.5E+7})) \cdot 102101

161290.592N = (1.58N/mm² - (\frac{4.4E+6N*mm}{1.5E+7mm²})) \cdot 102101mm²

161290.592 = (1.58 - (\frac{4.4E+6}{1.5E+7})) \cdot 102101

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Total Weight of Vessel given Maximum Compressive Stress Solution

Follow our step by step solution on how to calculate Total Weight of Vessel given Maximum Compressive Stress?

FIRST Step Consider the formula

ΣW = (f concrete - (\frac{M s}{Z})) \cdot A

Next Step Substitute values of Variables

∴

ΣW = (1.58N/mm² - (\frac{4.4E+6N*mm}{1.5E+7mm²})) \cdot 102101mm²

Next Step Convert Units

∴

ΣW = (1.6E+6Pa - (\frac{4400N*m}{15.4976m²})) \cdot 0.1021m²

Next Step Prepare to Evaluate

∴

ΣW = (1.6E+6 - (\frac{4400}{15.4976})) \cdot 0.1021

Next Step Evaluate

∴

ΣW = 161290.591980834N

LAST Step Rounding Answer

∴

ΣW = 161290.592N

Total Weight of Vessel given Maximum Compressive Stress Formula Elements

Variables

Total Weight of Vessel

Total Weight of Vessel with Attachment widely depends on its size, material, and function.

Symbol: ΣW

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Total Weight of Vessel

Maximum Compressive Stress of Concrete

Maximum Compressive Stress of Concrete is the maximum stress that, under a gradually applied load, a given solid material can sustain without fracture.

Symbol: f_concrete

Measurement: PressureUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Maximum Compressive Stress of Concrete

Maximum Seismic Moment

Maximum Seismic Moment is the reaction induced in a vessel when an external force or moment is applied to the element causing the element to bend.

Symbol: M_s

Measurement: Bending MomentUnit: N*mm

Note: Value should be greater than 0.

Formulas to find Maximum Seismic Moment

Section Modulus of Area A

Section Modulus of Area A is measure of the stiffness and strength of a cross-sectional shape and defined as the ratio of the maximum bending moment.

Symbol: Z

Measurement: AreaUnit: mm²

Note: Value should be greater than 0.

Formulas to find Section Modulus of Area A

Area between Bearing Plate & Concrete Foundation

Area between Bearing Plate & Concrete Foundation refers to the surface area in contact between a bearing plate and the concrete foundation on which it rests.

Symbol: A

Measurement: AreaUnit: mm²

Note: Value should be greater than 0.

Formulas to find Area between Bearing Plate & Concrete Foundation

Other formulas in Skirt Supports category

Go Minimum Stress between Bearing Plate and Concrete Foundation

f c = (\frac{W min}{A}) - (\frac{M s}{Z})

Go Compressive Stress between Bearing Plate and Concrete Foundation

f Compressive = (\frac{ΣW}{A}) + (\frac{M s}{Z})

Go Maximum Bending Moment at Junction of Skirt and Bearing Plate

M max = f appliedload \cdot b \cdot (\frac{l^{2}}{2})

Go Area between Bearing Plate and Concrete Foundation using Compressive Stress

A = \frac{ΣW}{f concrete - (\frac{M s}{Z})}

How to Evaluate Total Weight of Vessel given Maximum Compressive Stress?

Total Weight of Vessel given Maximum Compressive Stress evaluator uses Total Weight of Vessel = (Maximum Compressive Stress of Concrete-(Maximum Seismic Moment/Section Modulus of Area A))*Area between Bearing Plate & Concrete Foundation to evaluate the Total Weight of Vessel, The Total Weight of Vessel given Maximum Compressive Stress formula is employed in structural engineering and vessel design to determine the overall weight of a vessel. Total Weight of Vessel is denoted by ΣW symbol.

How to evaluate Total Weight of Vessel given Maximum Compressive Stress using this online evaluator? To use this online evaluator for Total Weight of Vessel given Maximum Compressive Stress, enter Maximum Compressive Stress of Concrete (f_concrete), Maximum Seismic Moment (M_s), Section Modulus of Area A (Z) & Area between Bearing Plate & Concrete Foundation (A) and hit the calculate button.

FAQs on Total Weight of Vessel given Maximum Compressive Stress

What is the formula to find Total Weight of Vessel given Maximum Compressive Stress?

The formula of Total Weight of Vessel given Maximum Compressive Stress is expressed as Total Weight of Vessel = (Maximum Compressive Stress of Concrete-(Maximum Seismic Moment/Section Modulus of Area A))*Area between Bearing Plate & Concrete Foundation. Here is an example- 1868.049 = (1580000-(4400/15.49758876))*0.102101.

How to calculate Total Weight of Vessel given Maximum Compressive Stress?

With Maximum Compressive Stress of Concrete (f_concrete), Maximum Seismic Moment (M_s), Section Modulus of Area A (Z) & Area between Bearing Plate & Concrete Foundation (A) we can find Total Weight of Vessel given Maximum Compressive Stress using the formula - Total Weight of Vessel = (Maximum Compressive Stress of Concrete-(Maximum Seismic Moment/Section Modulus of Area A))*Area between Bearing Plate & Concrete Foundation.

Can the Total Weight of Vessel given Maximum Compressive Stress be negative?

No, the Total Weight of Vessel given Maximum Compressive Stress, measured in Force cannot be negative.

Which unit is used to measure Total Weight of Vessel given Maximum Compressive Stress?

Total Weight of Vessel given Maximum Compressive Stress is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Total Weight of Vessel given Maximum Compressive Stress can be measured.

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Total Weight of Vessel given Maximum Compressive Stress Formula

Total Weight of Vessel given Maximum Compressive Stress Example

Total Weight of Vessel given Maximum Compressive Stress Solution

Total Weight of Vessel given Maximum Compressive Stress Formula Elements

Other formulas in Skirt Supports category

How to Evaluate Total Weight of Vessel given Maximum Compressive Stress?

FAQs on Total Weight of Vessel given Maximum Compressive Stress

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