You need to know the linear density.
Multiply gpm by the number of minutes the flow lasted, to find the gallons of volume that flowed during that time.
Multiply your gpm by 60.
The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.
convert degrees to meters
convert 100 millimeters to meters
Kw x 3412 / 10000 = gpm I think
Multiply gpm by the number of minutes the flow lasted, to find the gallons of volume that flowed during that time.
1TR= 12mbh 1gpm= 2.4tr 1gpm=28.8mbh
Multiply your gpm by 60.
First you need the size of the pipe and the volume of water supply. Pressure will vary during usage. Standard well system operates between 20-40 psi and city systems operate from 50-70 psi.
The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.The same as 1.60 meters. To convert to meters, divide by 100.
convert 0.056915 meters to micrometers
convert degrees to meters
convert 100 millimeters to meters
If your flow is in Volume/Time, e.g. m3/s, and it's given per area, e.g. m2, you come up with the flow speed. An appopiate unit would be m/s Example: If your flow is 6 cubic meters per second, and this is given for 2 square meters, the flow has a speed of 3 meters per second. Now the conversion to SI: 1 gpm = 6.30902e-5 m3/s 1 ft2 = 0.092903 m2 So 1 gpm per ft2 would give a flow speed of 6.79098e-4 m/s (0.68 millimeter per second) If you don't have a volumetric flow, use the density of the material to convert it.
.78 meters = 78 centimeters To convert meters to centimeters, multiply the meters by 100.
A fixture unit is 1 cubic foot of water (7.48 gallons) If your using pumped drainage /soil system then for every GPM of flow rate one has to consider it as ONE FU