Calculator A to Z
🔍
🔍

Live load pressure when thrust is given Calculator

Category Engineering
Engineering Civil
Civil Highway and road
Highway-And-Road Designing highway culverts
Compressive thrust is the locus of the points that through the structure represents the path of the resultants of the compressive forces.Compressive thrust [C
+10%
-10%
Span for the wall radius can be described as the length of the wallSpan for the wall radius [S
+10%
-10%
Dead load includes loads that are relatively constant over time.Dead load [W]
+10%
-10%
Live load are variable as they depend on usage and capacity.Live load pressure when thrust is given [L]
⎘ Copy
👎 Report Issue!
👍 Share Now!
You are here:
M Naveen
National Institute of Technology (NIT), Warangal
M Naveen has created this Calculator and 100+ more calculators!
Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
Mridul Sharma has verified this Calculator and 200+ more calculators!

11 Other formulas that you can solve using the same Inputs

Work done per minute for rope brake dynamometer
Work done per minute=(Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope)* Speed of the shaft in rpm GO
Brake power of the engine for rope brake dynamometer
Brake power=((Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope)* Speed of the shaft in rpm)/60 GO
Brake power of the engine if diameter of rope is neglected for rope brake dynamometer
Brake power=((Dead load-Spring balance reading)*pi*Diameter of the wheel* Speed of the shaft in rpm)/60 GO
Flexibilty factor limits
Flexibility factor= Span for the wall radius^2/(Modulus Of Elasticity*Moment of Inertia) GO
Work done per revolution for rope brake dynamometer
Work =(Dead load-Spring balance reading)*pi*(Diameter of the wheel+diameter of rope) GO
Compressive thrust when axial load is given
Compressive thrust= Design pressure*(Span for the wall radius/2) GO
design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter
Design pressure=Load Factor*(Dead load+Live load+Impact) GO
Design pressure(Pv) when compressive thrust is given
Design pressure=Compressive thrust/Radius 1 GO
design pressure(Pv) if the height of cover is less than one pipe diameter
Design pressure=Dead load+Live load+Impact GO
Netload on the brake for rope brake dynamometer
Force=(Dead load-Spring balance reading) GO
Required wall area of width when allowable stress is given
Area=Compressive thrust/Design stress GO

1 Other formulas that calculate the same Output

Live Load Effect when Ultimate Strength is Given for Unapplied Wind and Earthquake Loads
Live load=(Ultimate strength-(1.4*Dead load))/(1.7) GO

Live load pressure when thrust is given Formula

Live load= (2*Compressive thrust/Span for the wall radius)-Dead load
L= (2*C<sub>/S<sub>)-W
More formulas
Thrust of structure GO
Span diameter when thrust is given GO
Dead load pressure when thrust is given GO
Flexibility factor GO
Pipe diameter when flexibility factor is given GO
Modulus of elasticity when flexibility factor is given GO
Moment of inertia when flexibility factor is given GO
Bulking stress GO
Soil stiffness factor when bulking stress is given GO
Pipe diamter when bulking stress is given GO
Radius of gyration when bulking stress is given GO
Bulking stress For diameters greater than 126.5r/K GO
modulus of elasticity when Bulking stress For diameters greater than 126.5r/K is given GO
soil stiffness factor when Bulking stress For diameters greater than 126.5r/K is given GO
Pipe diameter when Bulking stress For diameters greater than 126.5r/K is given GO
Radius of gyration when Bulking stress For diameters greater than 126.5r/K is given GO

What is defined as thrust?

The Thrust of structure can be defined as to withstand the ring-compression thrust from the total load supported by the pipe.

How to Calculate Live load pressure when thrust is given?

Live load pressure when thrust is given calculator uses Live load= (2*Compressive thrust/Span for the wall radius)-Dead load to calculate the Live load, The Live load pressure when thrust is given can be defined as the loads that do, or can, change over time, such as people walking around a building (occupancy) or movable objects. Live load and is denoted by L symbol.

How to calculate Live load pressure when thrust is given using this online calculator? To use this online calculator for Live load pressure when thrust is given, enter Compressive thrust (C, Span for the wall radius (S and Dead load (W) and hit the calculate button. Here is how the Live load pressure when thrust is given calculation can be explained with given input values -> 799.99 = (2*200000000/500)-10.

FAQ

What is Live load pressure when thrust is given?
The Live load pressure when thrust is given can be defined as the loads that do, or can, change over time, such as people walking around a building (occupancy) or movable objects and is represented as L= (2*C or Live load= (2*Compressive thrust/Span for the wall radius)-Dead load. Compressive thrust is the locus of the points that through the structure represents the path of the resultants of the compressive forces, Span for the wall radius can be described as the length of the wall and Dead load includes loads that are relatively constant over time.
How to calculate Live load pressure when thrust is given?
The Live load pressure when thrust is given can be defined as the loads that do, or can, change over time, such as people walking around a building (occupancy) or movable objects is calculated using Live load= (2*Compressive thrust/Span for the wall radius)-Dead load. To calculate Live load pressure when thrust is given, you need Compressive thrust (C, Span for the wall radius (S and Dead load (W). With our tool, you need to enter the respective value for Compressive thrust, Span for the wall radius and Dead load 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 Live load?
In this formula, Live load uses Compressive thrust, Span for the wall radius and Dead load. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Live load=(Ultimate strength-(1.4*Dead load))/(1.7)
About | Contact | Disclaimer | Terms Of Use
© 2011-2021 A softusvista inc. venture!

Share Image
Let Others Know
LinkedIn
Email
WhatsApp
Copied!