Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
Mridul Sharma has created this Calculator and 100+ more calculators!
Alithea Fernandes
Don Bosco College of Engineering (DBCE), Goa
Alithea Fernandes has verified this Calculator and 100+ more calculators!

11 Other formulas that you can solve using the same Inputs

Gross Cross-Sectional Area of Intermediate Stiffeners
Original cross sectional area=Ratio of web to flange yield strength*(0.15*Stiffeners Factor *Depth*Minimum Web Thickness*(1-Shear buckling coefficient C)*(Shear Stress/Shear Capacity for Flexural Members)-18*Minimum Web Thickness^2) GO
Maximum Ultimate Moment when Neutral Axis Lies in Web
Maximum Ultimate Moment=0.9*((area tensile steel-tensile steel area for strength)*yield strength of steel*(Depth-depth of equivalent rcsd/2)+tensile steel area for strength*yield strength of steel*(Depth-Flange Thickness/2)) GO
Volumetric strain if change in length, breadth and width is given
Volumetric strain=((Change In Length/Length)+(Change in breadth/Breadth)+(Change in depth/Depth)) GO
Variation of acceleration due to gravity on the depth
Variation of acceleration due to gravity=Acceleration Due To Gravity*(1-Depth/[Earth-R]) GO
Distance when the Neutral Axis Lies in the Flange
distance from surface to n-axis=(1.18*value of omega*Depth)/constant beta one GO
Depth when the Neutral Axis Lies in the Flange
Depth=distance from surface to n-axis*constant beta one/(1.18*value of omega) GO
Area of opening when inlet capacity for flow depth more than 1ft 5in is given
Area=inlet capacity/(0.6*(2*Acceleration Due To Gravity*Depth)^(1/2)) GO
Inlet capacity for flow depth more than 1ft 5in
inlet capacity=0.6*Area*((2*Acceleration Due To Gravity*Depth)^(1/2)) GO
Side cutting edge angle for orthogonal cutting
side cutting edge angle=acos(Depth/Angular Velocity) GO
Lateral strain in terms of decrease in depth
Lateral Strain=Decrease in depth/Depth GO
Centre of Buoyancy
Centre of Buoyancy=(Depth)/2 GO

ω when the Neutral Axis Lies in the Flange Formula

value of omega=distance from surface to n-axis*constant beta one/(1.18*Depth)
ω=c*β1/(1.18*d)
More formulas
Distance when the Neutral Axis Lies in the Flange GO
Depth when the Neutral Axis Lies in the Flange GO
Maximum Ultimate Moment when Neutral Axis Lies in Web GO
Equivalent Rectangular Compressive Stress Distribution Depth GO

What is a flange?

A flange is a projecting ridge, rim, collar or ring on an object such as a column, beam, pipe and so on that provides additional strength or stiffness or additional surface area for the attachment of, or to, another object.

How to Calculate ω when the Neutral Axis Lies in the Flange?

ω when the Neutral Axis Lies in the Flange calculator uses value of omega=distance from surface to n-axis*constant beta one/(1.18*Depth) to calculate the value of omega, The ω when the Neutral Axis Lies in the Flange formula calculates omega when we have a prior info distance c from compression surface to neutral axis when the later lies in the flange. value of omega and is denoted by ω symbol.

How to calculate ω when the Neutral Axis Lies in the Flange using this online calculator? To use this online calculator for ω when the Neutral Axis Lies in the Flange, enter distance from surface to n-axis (c), constant beta one (β1) and Depth (d) and hit the calculate button. Here is how the ω when the Neutral Axis Lies in the Flange calculation can be explained with given input values -> 0.084746 = 0.01*1/(1.18*0.1).

FAQ

What is ω when the Neutral Axis Lies in the Flange?
The ω when the Neutral Axis Lies in the Flange formula calculates omega when we have a prior info distance c from compression surface to neutral axis when the later lies in the flange and is represented as ω=c*β1/(1.18*d) or value of omega=distance from surface to n-axis*constant beta one/(1.18*Depth). distance from surface to n-axis is the distance from compression surface to neutral axis, constant beta one is the value of constant β1 and Depth is the distance from the top or surface to the bottom of something.
How to calculate ω when the Neutral Axis Lies in the Flange?
The ω when the Neutral Axis Lies in the Flange formula calculates omega when we have a prior info distance c from compression surface to neutral axis when the later lies in the flange is calculated using value of omega=distance from surface to n-axis*constant beta one/(1.18*Depth). To calculate ω when the Neutral Axis Lies in the Flange, you need distance from surface to n-axis (c), constant beta one (β1) and Depth (d). With our tool, you need to enter the respective value for distance from surface to n-axis, constant beta one and Depth and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!