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Combined Stresses at Bottommost Fibre of Cross Section Formula

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Combined Stresses Bottommost Fibre Cross Section refers to the amount of stress that develops at the outermost or bottommost layer of a vessel. Check FAQs
fcs2=fcs1-f2
fcs2 - Combined Stresses Bottommost Fibre Cross Section?fcs1 - Stress due to Internal Pressure?f2 - Stress at Bottom most Fibre of Cross Section?

Combined Stresses at Bottommost Fibre of Cross Section Example

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Here is how the Combined Stresses at Bottommost Fibre of Cross Section equation looks like with Values.

Here is how the Combined Stresses at Bottommost Fibre of Cross Section equation looks like with Units.

Here is how the Combined Stresses at Bottommost Fibre of Cross Section equation looks like.

61.19Edit=61.19Edit-4.4E-6Edit
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Combined Stresses at Bottommost Fibre of Cross Section Solution

Follow our step by step solution on how to calculate Combined Stresses at Bottommost Fibre of Cross Section?

FIRST Step Consider the formula
fcs2=fcs1-f2
Next Step Substitute values of Variables
fcs2=61.19N/mm²-4.4E-6N/mm²
Next Step Convert Units
fcs2=6.1E+7Pa-4.4Pa
Next Step Prepare to Evaluate
fcs2=6.1E+7-4.4
Next Step Evaluate
fcs2=61189995.6Pa
Next Step Convert to Output's Unit
fcs2=61.1899956N/mm²
LAST Step Rounding Answer
fcs2=61.19N/mm²

Combined Stresses at Bottommost Fibre of Cross Section Formula Elements

Variables
Combined Stresses Bottommost Fibre Cross Section
Combined Stresses Bottommost Fibre Cross Section refers to the amount of stress that develops at the outermost or bottommost layer of a vessel.
Symbol: fcs2
Measurement: StressUnit: N/mm²
Note: Value should be greater than 0.
Formulas to find Combined Stresses Bottommost Fibre Cross SectionOpen Variable
Stress due to Internal Pressure
Stress due to Internal Pressure refers to the amount of pressure-induced stress exerted on the walls of a container or vessel due to the presence of fluids or gases inside.
Symbol: fcs1
Measurement: StressUnit: N/mm²
Note: Value should be greater than 0.
Formulas to find Stress due to Internal PressureOpen Variable
Stress at Bottom most Fibre of Cross Section
Stress at Bottom most Fibre of Cross Section refers to the amount of stress that develops at the extreme fibre.
Symbol: f2
Measurement: StressUnit: N/mm²
Note: Value should be greater than 0.
Formulas to find Stress at Bottom most Fibre of Cross SectionOpen Variable

Other formulas in Saddle Support category

​Go Combined Stresses at Mid Span
fcs3=fcs1+f3
​Go Bending Moment at Support
M1=QA((1)-(1-(AL)+((Rvessel)2-(DepthHead)22AL)1+(43)(DepthHeadL)))
​Go Combined Stresses at Topmost Fibre of Cross Section
f1cs=fcs1+f1
​Go Corresponding Bending Stress with Section Modulus
fwb=MwZ

How to Evaluate Combined Stresses at Bottommost Fibre of Cross Section?

Combined Stresses at Bottommost Fibre of Cross Section evaluator uses Combined Stresses Bottommost Fibre Cross Section = Stress due to Internal Pressure-Stress at Bottom most Fibre of Cross Section to evaluate the Combined Stresses Bottommost Fibre Cross Section, The Combined Stresses at Bottommost Fibre of Cross Section refers to the amount of stress that develops at the outermost or bottommost layer of a beam or structural element when a bending moment is applied. Combined Stresses Bottommost Fibre Cross Section is denoted by fcs2 symbol.

How to evaluate Combined Stresses at Bottommost Fibre of Cross Section using this online evaluator? To use this online evaluator for Combined Stresses at Bottommost Fibre of Cross Section, enter Stress due to Internal Pressure (fcs1) & Stress at Bottom most Fibre of Cross Section (f2) and hit the calculate button.

FAQs on Combined Stresses at Bottommost Fibre of Cross Section

What is the formula to find Combined Stresses at Bottommost Fibre of Cross Section?
The formula of Combined Stresses at Bottommost Fibre of Cross Section is expressed as Combined Stresses Bottommost Fibre Cross Section = Stress due to Internal Pressure-Stress at Bottom most Fibre of Cross Section. Here is an example- 6.1E-5 = 61190000-4.4.
How to calculate Combined Stresses at Bottommost Fibre of Cross Section?
With Stress due to Internal Pressure (fcs1) & Stress at Bottom most Fibre of Cross Section (f2) we can find Combined Stresses at Bottommost Fibre of Cross Section using the formula - Combined Stresses Bottommost Fibre Cross Section = Stress due to Internal Pressure-Stress at Bottom most Fibre of Cross Section.
Can the Combined Stresses at Bottommost Fibre of Cross Section be negative?
No, the Combined Stresses at Bottommost Fibre of Cross Section, measured in Stress cannot be negative.
Which unit is used to measure Combined Stresses at Bottommost Fibre of Cross Section?
Combined Stresses at Bottommost Fibre of Cross Section is usually measured using the Newton per Square Millimeter[N/mm²] for Stress. Pascal[N/mm²], Newton per Square Meter[N/mm²], Kilonewton per Square Meter[N/mm²] are the few other units in which Combined Stresses at Bottommost Fibre of Cross Section can be measured.
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