Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
Rithik Agrawal has created this Calculator and 500+ more calculators!
Himanshi Sharma
Bhilai Institute of Technology (BIT), Raipur
Himanshi Sharma has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Maximum and Center Deflection of Simply Supported Beam carrying UDL over its entire Length
Deflection=(5*Uniformly Distributed Load*(Length^4))/(384*Modulus Of Elasticity*Area Moment of Inertia) GO
Condition for Maximum Moment in Interior Spans of Beams
Point of Maximum Moment=(Length/2)-(Maximum Bending Moment/(Uniformly Distributed Load*1000*Length)) GO
Tension at Supports for UDL on Parabolic Cable is Given
Tension at Supports=sqrt((Midspan Tension^2)+(Uniformly Distributed Load*Length of Cable/2)^2) GO
Tension at Midspan when Tension at Supports for UDL on Parabolic Cable is Given
Midspan Tension=sqrt((Tension at Supports^2)-(((Uniformly Distributed Load*Cable Span)/2)^2)) GO
UDL when Tension at Supports for UDL on Parabolic Cable is Given
Uniformly Distributed Load=(sqrt((Tension at Supports^2)-(Midspan Tension^2))*2)/Cable Span GO
Maximum Sag when Tension at Midspan for UDL on Parabolic Cable is Given
Maximum Sag=Uniformly Distributed Load*(Length of Cable^2)/(8*Midspan Tension) GO
UDL when Tension at Midspan for UDL on Parabolic Cable is Given
Uniformly Distributed Load=8*Midspan Tension*Maximum Sag/(Length of Cable^2) GO
Tension at Midspan for UDL on Parabolic Cable
Midspan Tension=(Uniformly Distributed Load*(Cable Span^2))/(8*Maximum Sag) GO
Fixed End Moment of a Fixed Beam having UDL over its entire Length
Fixed End Moment =(Uniformly Distributed Load*(Length^2))/12 GO
Bending Moment of a Cantilever Subject to UDL Over its Entire Span
Bending Moment =(-Uniformly Distributed Load*Length^2)/2 GO
Bending Moment of Simply Supported Beams with Uniformly Distributed Load
Bending Moment =(Uniformly Distributed Load*Length^2)/8 GO

8 Other formulas that calculate the same Output

Catenary Length measured from the Low Point of the Simple Cable with a UDL
Cable Span=(Midspan Tension/Uniformly Distributed Load)*sinh(Uniformly Distributed Load*Distance from Midpoint of Cable/Midspan Tension) GO
Span of Cable when Natural frequency of each Cable is Given
Cable Span=(Fundamental Vibration Mode*pi/Natural frequency)*sqrt(Maximum Tension/[g]*Uniformly Distributed Load) GO
Span Length when Horizontal Component of Cable Tension for UDL is Given
Cable Span=sqrt(8*Sag of Cable at Midway between Supports*Midspan Tension)/Uniformly Distributed Load GO
Span of Cable when Tension at Supports for UDL on Parabolic Cable is Given
Cable Span=(sqrt((Tension at Supports^2)-(Midspan Tension^2))*2)/total uniformly distributed load GO
Catenary Length when Tension at any Point of the Simple Cable with a UDL is Given
Cable Span=sqrt(((Tension at Supports^2)-(Midspan Tension^2))/(Uniformly Distributed Load^2)) GO
Span of Cable when Length of Cable for UDL on Parabolic Cable is Given
Cable Span=1.5*Length of Cable-sqrt((2.25*Length of Cable^2)-8*(Maximum Sag^2)) GO
Span Length when Vertical Reaction at Supports is Given
Cable Span=Vertical Reaction at Supports*2/Uniformly Distributed Load GO
Span of Cable when Catenary Parameter for UDL on Catenary Parabolic Cable is Given
Cable Span=2*Catenary Parameter GO

Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given Formula

Cable Span=sqrt(8*Midspan Tension*Maximum Sag/Uniformly Distributed Load)
L=sqrt(8*H*d/q)
More formulas
Allowable Stress for Compression Elements for Highway Bridges GO
Tension at Midspan for UDL on Parabolic Cable GO
Maximum Sag when Tension at Midspan for UDL on Parabolic Cable is Given GO
Tension at Supports for UDL on Parabolic Cable is Given GO
Tension at Midspan when Tension at Supports for UDL on Parabolic Cable is Given GO
UDL when Tension at Supports for UDL on Parabolic Cable is Given GO
Span of Cable when Tension at Supports for UDL on Parabolic Cable is Given GO
Length of Cable for UDL on Parabolic Cable is Given GO
Span of Cable when Length of Cable for UDL on Parabolic Cable is Given GO
Maximum Sag when Length of Cable for UDL on Parabolic Cable is Given GO
Parabolic Equation for the Cable Slope GO

What is Cable Span ?

Cable Span is the aerial distance between two poles or towers, meaning the physical resistance of the jacket to support its own weight.

How to Calculate Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given?

Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given calculator uses Cable Span=sqrt(8*Midspan Tension*Maximum Sag/Uniformly Distributed Load) to calculate the Cable Span, The Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given is defined as the total projected horizontal length of cable. Cable Span and is denoted by L symbol.

How to calculate Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given using this online calculator? To use this online calculator for Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given, enter Midspan Tension (H), Maximum Sag (d) and Uniformly Distributed Load (q) and hit the calculate button. Here is how the Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given calculation can be explained with given input values -> 0.282843 = sqrt(8*10*10/10000).

FAQ

What is Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given?
The Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given is defined as the total projected horizontal length of cable and is represented as L=sqrt(8*H*d/q) or Cable Span=sqrt(8*Midspan Tension*Maximum Sag/Uniformly Distributed Load). Midspan Tension is the total tension acting in cable at midpoint, Maximum Sag is defined as maximum catenary formed in cable and Uniformly distributed load is a force applied over an area or length, denoted by q which is force per unit length.
How to calculate Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given?
The Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given is defined as the total projected horizontal length of cable is calculated using Cable Span=sqrt(8*Midspan Tension*Maximum Sag/Uniformly Distributed Load). To calculate Span of Cable when Tension at Midspan for UDL on Parabolic Cable is Given, you need Midspan Tension (H), Maximum Sag (d) and Uniformly Distributed Load (q). With our tool, you need to enter the respective value for Midspan Tension, Maximum Sag and Uniformly Distributed 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 Cable Span?
In this formula, Cable Span uses Midspan Tension, Maximum Sag and Uniformly Distributed Load. We can use 8 other way(s) to calculate the same, which is/are as follows -
  • Cable Span=(sqrt((Tension at Supports^2)-(Midspan Tension^2))*2)/total uniformly distributed load
  • Cable Span=1.5*Length of Cable-sqrt((2.25*Length of Cable^2)-8*(Maximum Sag^2))
  • Cable Span=2*Catenary Parameter
  • Cable Span=(Midspan Tension/Uniformly Distributed Load)*sinh(Uniformly Distributed Load*Distance from Midpoint of Cable/Midspan Tension)
  • Cable Span=sqrt(((Tension at Supports^2)-(Midspan Tension^2))/(Uniformly Distributed Load^2))
  • Cable Span=sqrt(8*Sag of Cable at Midway between Supports*Midspan Tension)/Uniformly Distributed Load
  • Cable Span=Vertical Reaction at Supports*2/Uniformly Distributed Load
  • Cable Span=(Fundamental Vibration Mode*pi/Natural frequency)*sqrt(Maximum Tension/[g]*Uniformly Distributed Load)
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!