Rudrani Tidke
Cummins College of Engineering for Women (CCEW), Pune
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Kethavath Srinath
Osmania University (OU), Hyderabad
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11 Other formulas that you can solve using the same Inputs

Deflection for Hollow Rectangle When Load in Middle
Deflection of Beam=(Greatest Safe Load*Length of the Beam^3)/(32*(Sectional Area*(Depth of the Beam^2)-Interior Cross-Sectional Area of Beam*(Interior Depth of the Beam^2))) GO
Deflection for Hollow Rectangle When Load is Distributed
Deflection of Beam=Greatest Safe Load*(Length of the Beam^3)/(52*(Sectional Area*Depth of the Beam^-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam^2)) GO
Greatest Safe Load for Hollow Rectangle When Load is Distributed
Greatest Safe Load=1780*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam)/Distance between Supports GO
Greatest Safe Load for Hollow Rectangle When Load in Middle
Greatest Safe Load=(890*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam))/Length of the Beam GO
Static deflection for cantilever beam with a point load at free end
Static deflection=(Load attached to the free end of constraint*(Length of the Beam^3))/(3*Young's Modulus*Moment of inertia of the beam) GO
Static deflection for cantilever beam with a uniformly distributed load
Static deflection=(Load per unit length*(Length of the Beam^4))/(8*Young's Modulus*Moment of inertia of the beam) GO
Deflection for Solid Rectangle When Load is Distributed
Deflection of Beam=(Greatest safe distributed load*Length of the Beam^3)/(52*Sectional Area*Depth of the Beam^2) GO
Deflection for Solid Rectangle When Load in Middle
Deflection of Beam=(Greatest Safe Load*Length of the Beam^3)/(32*Sectional Area*Depth of the Beam^2) GO
Greatest Safe Load for Solid Rectangle When Load is Distributed
Greatest safe distributed load=1780*Sectional Area*Depth of the Beam/Length of the Beam GO
Greatest Safe Load for Solid Cylinder When Load in Middle
Greatest Safe Load=(667*Sectional Area*Depth of the Beam)/Length of the Beam GO
Greatest Safe Load for Solid Rectangle When Load in Middle
Greatest Safe Load=890*Sectional Area*Depth of the Beam/Length of the Beam GO

4 Other formulas that calculate the same Output

Greatest Safe Load for Hollow Rectangle When Load is Distributed
Greatest Safe Load=1780*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam)/Distance between Supports GO
Greatest Safe Load for Hollow Rectangle When Load in Middle
Greatest Safe Load=(890*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam))/Length of the Beam GO
Greatest Safe Load for Solid Cylinder When Load in Middle
Greatest Safe Load=(667*Sectional Area*Depth of the Beam)/Length of the Beam GO
Greatest Safe Load for Solid Rectangle When Load in Middle
Greatest Safe Load=890*Sectional Area*Depth of the Beam/Length of the Beam GO

Greatest Safe Load for Solid Cylinder When Load is Distributed Formula

Greatest Safe Load=1333*(Sectional Area*Depth of the Beam)/Length of the Beam
W=1333*(A*D)/L
More formulas
Greatest Safe Load for Solid Rectangle When Load in Middle GO
Greatest Safe Load for Solid Rectangle When Load is Distributed GO
Deflection for Solid Rectangle When Load in Middle GO
Deflection for Solid Rectangle When Load is Distributed GO
Greatest Safe Load for Hollow Rectangle When Load in Middle GO
Greatest Safe Load for Hollow Rectangle When Load is Distributed GO
Deflection for Hollow Rectangle When Load in Middle GO
Deflection for Hollow Rectangle When Load is Distributed GO
Greatest Safe Load for Solid Cylinder When Load in Middle GO

What is Working Load Limits?

Safe Working Load (SWL) sometimes stated as the Normal Working Load (NWL) is the maximum safe force that a piece of lifting equipment, lifting device or accessory can exert to lift, suspend, or lower, a given mass without fear of breaking. Usually marked on the equipment by the manufacturer.

How to Calculate Greatest Safe Load for Solid Cylinder When Load is Distributed?

Greatest Safe Load for Solid Cylinder When Load is Distributed calculator uses Greatest Safe Load=1333*(Sectional Area*Depth of the Beam)/Length of the Beam to calculate the Greatest Safe Load, The Greatest Safe Load for Solid Cylinder When Load is Distributed formula is defined as a load is distributed on a Solid Cylinder structure which does not produce stresses in excess of allowable stresses. Greatest Safe Load and is denoted by W symbol.

How to calculate Greatest Safe Load for Solid Cylinder When Load is Distributed using this online calculator? To use this online calculator for Greatest Safe Load for Solid Cylinder When Load is Distributed, enter Sectional Area (A), Depth of the Beam (D) and Length of the Beam (L) and hit the calculate button. Here is how the Greatest Safe Load for Solid Cylinder When Load is Distributed calculation can be explained with given input values -> 0.161113 = 1333*(0.00645160000005161*0.254000000001016)/3.04800000001219.

FAQ

What is Greatest Safe Load for Solid Cylinder When Load is Distributed?
The Greatest Safe Load for Solid Cylinder When Load is Distributed formula is defined as a load is distributed on a Solid Cylinder structure which does not produce stresses in excess of allowable stresses and is represented as W=1333*(A*D)/L or Greatest Safe Load=1333*(Sectional Area*Depth of the Beam)/Length of the Beam. Sectional Area is the area of a two-dimensional shape that is obtained when a three-dimensional object is sliced perpendicular to the axis of the beam at a point, Depth of the Beam is the overall depth of the cross section of the beam perpendicular to the axis of the beam and Length of the beam is the center to center distance between the supports or the effective length of the beam.
How to calculate Greatest Safe Load for Solid Cylinder When Load is Distributed?
The Greatest Safe Load for Solid Cylinder When Load is Distributed formula is defined as a load is distributed on a Solid Cylinder structure which does not produce stresses in excess of allowable stresses is calculated using Greatest Safe Load=1333*(Sectional Area*Depth of the Beam)/Length of the Beam. To calculate Greatest Safe Load for Solid Cylinder When Load is Distributed, you need Sectional Area (A), Depth of the Beam (D) and Length of the Beam (L). With our tool, you need to enter the respective value for Sectional Area, Depth of the Beam and Length of the Beam 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 Greatest Safe Load?
In this formula, Greatest Safe Load uses Sectional Area, Depth of the Beam and Length of the Beam. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • Greatest Safe Load=890*Sectional Area*Depth of the Beam/Length of the Beam
  • Greatest Safe Load=(890*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam))/Length of the Beam
  • Greatest Safe Load=1780*(Sectional Area*Depth of the Beam-Interior Cross-Sectional Area of Beam*Interior Depth of the Beam)/Distance between Supports
  • Greatest Safe Load=(667*Sectional Area*Depth of the Beam)/Length of the Beam
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