Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 300+ more calculators!
Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
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11 Other formulas that you can solve using the same Inputs

Peak Discharge equation based on field application
Peak Discharge=(1/3.6)*Coefficient of Runoff*(Mean Intensity of Precipitation)*Drainage Area GO
Rational Method of Peak Discharge
Peak Discharge=Coefficient of Runoff*Intensity of Rainfall*Catchment Area GO
Peak Value of the Runoff
peak runoff=Coefficient of Runoff*Catchment Area*Intensity of Rainfall GO
Maximum Solids Entering the Clarifier
Maximum solids=(Peak Discharge+Return activated sludge)*mlss*8.34 GO
Catchment Area when maximum Flood Discharge is known in Ryve’s formula
Catchment Area=(Peak Discharge/Ryves Coefficient)^1/0.66 GO
Catchment Area when maximum Flood Discharge is known in Dickens Formula
Catchment Area=(Peak Discharge/Dickens Constant)^1/0.75 GO
Design Surface Loading Rate when Surface Area of Circular Settling Tank is Given
Surface loading rate=(Peak Discharge/Surface Area) GO
Average Daily Load when Peak Discharge in Circular Settling Tanks is Given
Average daily load=(Peak Discharge/Peaking factor) GO
Peaking Factor when Peak Discharge in Circular Settling Tanks is Given
Peaking factor=(Peak Discharge/Average daily load) GO
Surface Area of Circular Settling Tank
Surface Area=(Peak Discharge/Surface loading rate) GO
Catchment Area when Peak Discharge is given in Jarvis formula
Catchment Area=(Peak Discharge/Coefficient)^2 GO

Drainage Area when Peak Discharge given in Field Application Formula

Drainage Area=Peak Discharge/(1/3.6)*Coefficient of Runoff*Mean Intensity of Precipitation
A=Q<sub>p</sub>/(1/3.6)*P*(Itc,p)
More formulas
Mean Annual Flood proposed by Natural Environment Research Council GO
Peak Value of the Runoff GO
Peak Discharge equation based on field application GO
Kirpich Equation GO
Dicken's Formula GO
Catchment Area when maximum Flood Discharge is known in Dickens Formula GO
Ryves Formula GO
Catchment Area when maximum Flood Discharge is known in Ryve’s formula GO
Inglis Formula for Small Areas GO
Inglis Formula for areas between 160 to 1000 km^2 GO
Fuller's formula for Maximum Flood Discharge GO
Inglis Formula for Larger Areas GO
Rational Method of Peak Discharge GO
Baird and Mcillwraith Formula for maximum flood discharge GO
Jarvis formula for Peak Discharge GO

What is Drainage Area?

Drainage Area is the total surface area, upstream of a point on a stream, where the water from rain, snowmelt, or irrigation which is not absorbed into the ground flows over the ground surface, back into streams, to finally reach that point.

How to Calculate Drainage Area when Peak Discharge given in Field Application?

Drainage Area when Peak Discharge given in Field Application calculator uses Drainage Area=Peak Discharge/(1/3.6)*Coefficient of Runoff*Mean Intensity of Precipitation to calculate the Drainage Area, Drainage Area when Peak Discharge given in Field Application formula is defined as the maximum volume flow rate passing a particular location during a storm event. Drainage Area and is denoted by A symbol.

How to calculate Drainage Area when Peak Discharge given in Field Application using this online calculator? To use this online calculator for Drainage Area when Peak Discharge given in Field Application, enter Peak Discharge (Qp), Coefficient of Runoff (P) and Mean Intensity of Precipitation ((Itc,p)) and hit the calculate button. Here is how the Drainage Area when Peak Discharge given in Field Application calculation can be explained with given input values -> 8.000E-10 = 10/(1/3.6)*4*5.55555555555556E-06.

FAQ

What is Drainage Area when Peak Discharge given in Field Application?
Drainage Area when Peak Discharge given in Field Application formula is defined as the maximum volume flow rate passing a particular location during a storm event and is represented as A=Qp/(1/3.6)*P*(Itc,p) or Drainage Area=Peak Discharge/(1/3.6)*Coefficient of Runoff*Mean Intensity of Precipitation. Peak Discharge is the maximum volume flow rate passing a particular location during a storm event, Coefficient of Runoff is equal to (runoff/rainfall) and Mean Intensity of Precipitation (mm/h) or a duration equal to tc and an exceedance probability P .
How to calculate Drainage Area when Peak Discharge given in Field Application?
Drainage Area when Peak Discharge given in Field Application formula is defined as the maximum volume flow rate passing a particular location during a storm event is calculated using Drainage Area=Peak Discharge/(1/3.6)*Coefficient of Runoff*Mean Intensity of Precipitation. To calculate Drainage Area when Peak Discharge given in Field Application, you need Peak Discharge (Qp), Coefficient of Runoff (P) and Mean Intensity of Precipitation ((Itc,p)). With our tool, you need to enter the respective value for Peak Discharge, Coefficient of Runoff and Mean Intensity of Precipitation and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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