Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
Mridul Sharma has created this Calculator and 100+ more calculators!
Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has verified this Calculator and 50+ more calculators!

11 Other formulas that you can solve using the same Inputs

Strain Energy due to Torsion in Hollow Shaft
Strain Energy=(Shear Stress^(2))*(Outer diameter^(2)+Inner Diameter^(2))*Volume of Shaft/(4*Shear Modulus*Outer diameter^(2)) GO
Conversion factor when flow velocity is given
conversion factor=((flow velocity*roughness coefficient of conduit surface)/((energy loss^(1/2))*hydraulic radius^(2/3))) GO
Hydraulic radius when flow velocity is given
hydraulic radius=((flow velocity*roughness coefficient of conduit surface)/(conversion factor*energy loss^(1/2)))^(3/2) GO
Energy loss when flow velocity is given
energy loss=((flow velocity*roughness coefficient of conduit surface)/(conversion factor*hydraulic radius^(2/3)))^2 GO
Flow velocity using Manning's formula
flow velocity=(conversion factor*hydraulic radius^(2/3)*energy loss^(1/2))/roughness coefficient of conduit surface GO
Inside diameter when full flow velocity in sewer is given
Inner Diameter=((flow velocity*roughness coefficient of conduit surface)/(0.59*energy loss^(1/2)))^(3/2) GO
Full flow velocity in sewer
flow velocity=(0.59*Inner Diameter^(2/3)*energy loss^(1/2))/roughness coefficient of conduit surface GO
angle of twist for hollow cylindrical rod in degrees
Total Angle of Twist=584*Torque*Length/(Modulus of rigidity*((Outer diameter^4)-(Inner Diameter^4))) GO
Moment of Inertia for Hollow Circular Shaft
Polar moment of Inertia=pi*(Outer diameter^(4)-Inner Diameter^(4))/32 GO
Velocity when water flow equation is given
flow velocity=water flow/Cross sectional area GO
Area when water flow equation is given
Cross sectional area=water flow/flow velocity GO

2 Other formulas that calculate the same Output

Energy loss when flow velocity is given
energy loss=((flow velocity*roughness coefficient of conduit surface)/(conversion factor*hydraulic radius^(2/3)))^2 GO
Energy loss when full flow velocity in sewer is given
energy loss=((flow velocity*roughness coefficient of conduit surface)/(0.59*Inner Diameter^(2/3)))^2 GO

Energy loss when flow quantity for a full flowing sewer is given Formula

energy loss=((water flow*roughness coefficient of conduit surface)/(0.463*Inner Diameter^(8/3)))^2
S=((Q*n)/(0.463*Di^(8/3)))^2
More formulas
Full flow velocity in sewer GO
Inside diameter when full flow velocity in sewer is given GO
Coefficient of roughness when full flow velocity in sewer is given GO
Energy loss when full flow velocity in sewer is given GO
Flow quantity for a full flowing sewer GO
Coefficient of roughness when flow quantity for a full flowing sewer is given GO
Inside diameter when flow quantity for a full flowing sewer is given GO

What is pipe roughness coefficient?

Roughness coefficient is a value used in Manning's formula to determine energy losses of flowing water due to pipe or channel wall roughness.It is based on the material of the pipe. New steel pipe uses a C value of 140, but with use and corrosion a lower value is typically used. For HDPE pipe, a range of C values between 150 and 160 is typical.

How to Calculate Energy loss when flow quantity for a full flowing sewer is given?

Energy loss when flow quantity for a full flowing sewer is given calculator uses energy loss=((water flow*roughness coefficient of conduit surface)/(0.463*Inner Diameter^(8/3)))^2 to calculate the energy loss, The Energy loss when flow quantity for a full flowing sewer is given formula calculates energy loss when we have a prior info of the flow quantity , the roughness coefficient and inner diameter of the pipe. energy loss and is denoted by S symbol.

How to calculate Energy loss when flow quantity for a full flowing sewer is given using this online calculator? To use this online calculator for Energy loss when flow quantity for a full flowing sewer is given, enter water flow (Q), roughness coefficient of conduit surface (n) and Inner Diameter (Di) and hit the calculate button. Here is how the Energy loss when flow quantity for a full flowing sewer is given calculation can be explained with given input values -> 3.764E-10 = ((0.304800000001219*1)/(0.463*50^(8/3)))^2.

FAQ

What is Energy loss when flow quantity for a full flowing sewer is given?
The Energy loss when flow quantity for a full flowing sewer is given formula calculates energy loss when we have a prior info of the flow quantity , the roughness coefficient and inner diameter of the pipe and is represented as S=((Q*n)/(0.463*Di^(8/3)))^2 or energy loss=((water flow*roughness coefficient of conduit surface)/(0.463*Inner Diameter^(8/3)))^2. water flow is rate of flow of water, roughness coefficient of conduit surface is coefficient dependent on roughness of conduit surface and The Inner Diameter is the diameter of inner circle of circular hollow shaft.
How to calculate Energy loss when flow quantity for a full flowing sewer is given?
The Energy loss when flow quantity for a full flowing sewer is given formula calculates energy loss when we have a prior info of the flow quantity , the roughness coefficient and inner diameter of the pipe is calculated using energy loss=((water flow*roughness coefficient of conduit surface)/(0.463*Inner Diameter^(8/3)))^2. To calculate Energy loss when flow quantity for a full flowing sewer is given, you need water flow (Q), roughness coefficient of conduit surface (n) and Inner Diameter (Di). With our tool, you need to enter the respective value for water flow, roughness coefficient of conduit surface and Inner Diameter 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 energy loss?
In this formula, energy loss uses water flow, roughness coefficient of conduit surface and Inner Diameter. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • energy loss=((flow velocity*roughness coefficient of conduit surface)/(conversion factor*hydraulic radius^(2/3)))^2
  • energy loss=((flow velocity*roughness coefficient of conduit surface)/(0.59*Inner Diameter^(2/3)))^2
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